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Glass Properties, refractive index, Abbe number, dispersion formula

 

Glass: F2 
-------------------------------
Glass code: 620364.36 
Refractive index, Nd = 1.6200
Abbe number, Vd = 36.3700

Constants of Dispersion dn/dT
D0 = 1.51e-006
D1 = 1.56e-008
D2 = -2.78e-011
E0 = 9.34e-007
E1 = 1.04e-009
L_TK = 2.50e-001 µm

Thermal Expansion
CTE = 8.20e-006 1/K, -30°C to +70°C
CTE = 9.20e-006 1/K, +20°C to +300°C 

Density, ro =   3.60 g/cm^3
dPgF = 2.00e-004 

Dispersion formula
n^2 - 1 = (0.9373572*L^2)/(L^2 - 111.8868) + (0.2090732*L^2)/(L^2 - 0.04704508) + (1.345334*L^2)/(L^2 - 0.009977439) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.000, 0.211, 0.780, 0.921, 0.940, 0.963, 0.977, 0.985, 0.987, 0.991, 0.993, 0.994, 0.997, 0.998, 0.998, 0.998, 0.997, 0.998, 0.998, 0.989, 0.876, 0.685, 0.589 ]

Brewsters angle(in), 58.3143 deg 
Brewsters angle(out), 31.6857 deg 
Critical angle, 38.1170 deg

OpticsPars_01 OpticsPars_02

 

Glass: F2HT 
-------------------------------
Glass code: 620364.36 
Refractive index, Nd = 1.6200
Abbe number, Vd = 36.3700

Constants of Dispersion dn/dT
D0 = 1.51e-006
D1 = 1.56e-008
D2 = -2.78e-011
E0 = 9.34e-007
E1 = 1.04e-009
L_TK = 2.50e-001 µm

Thermal Expansion
CTE = 8.20e-006 1/K, -30°C to +70°C
CTE = 9.20e-006 1/K, +20°C to +300°C 

Density, ro =   3.60 g/cm^3
dPgF = 2.00e-004 

Dispersion formula
n^2 - 1 = (0.9373572*L^2)/(L^2 - 111.8868) + (0.2090732*L^2)/(L^2 - 0.04704508) + (1.345334*L^2)/(L^2 - 0.009977439) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.000, 0.240, 0.828, 0.957, 0.971, 0.982, 0.988, 0.991, 0.992, 0.994, 0.994, 0.995, 0.997, 0.998, 0.998, 0.998, 0.997, 0.998, 0.998, 0.994, 0.921, 0.795, 0.714 ]

Brewsters angle(in), 58.3143 deg 
Brewsters angle(out), 31.6857 deg 
Critical angle, 38.1170 deg


OpticsPars_03OpticsPars_04

Glass: F5 
-------------------------------
Glass code: 603380.347 
Refractive index, Nd = 1.6034
Abbe number, Vd = 38.0300

Constants of Dispersion dn/dT
D0 = 2.13e-006
D1 = 1.65e-008
D2 = -6.98e-011
E0 = 1.02e-006
E1 = 6.56e-010
L_TK = 2.08e-001 µm

Thermal Expansion
CTE = 8.00e-006 1/K, -30°C to +70°C
CTE = 8.90e-006 1/K, +20°C to +300°C 

Density, ro =   3.47 g/cm^3
dPgF = -3.00e-004 

Dispersion formula
n^2 - 1 = (0.9661298*L^2)/(L^2 - 115.0119) + (0.1960343*L^2)/(L^2 - 0.04576276) + (1.310446*L^2)/(L^2 - 0.00958633) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.000, 0.300, 0.760, 0.910, 0.930, 0.960, 0.973, 0.982, 0.985, 0.988, 0.990, 0.991, 0.994, 0.995, 0.995, 0.995, 0.996, 0.997, 0.998, 0.987, 0.860, 0.650, 0.550 ]

Brewsters angle(in), 58.0496 deg 
Brewsters angle(out), 31.9504 deg 
Critical angle, 38.5844 deg


OpticsPars_05 OpticsPars_06

Glass: K10 
-------------------------------
Glass code: 501564.252 
Refractive index, Nd = 1.5014
Abbe number, Vd = 56.4100

Constants of Dispersion dn/dT
D0 = 4.86e-006
D1 = 1.72e-008
D2 = -3.02e-011
E0 = 3.82e-007
E1 = 4.53e-010
L_TK = 2.60e-001 µm

Thermal Expansion
CTE = 6.50e-006 1/K, -30°C to +70°C
CTE = 7.40e-006 1/K, +20°C to +300°C 

Density, ro =   2.52 g/cm^3
dPgF = -1.50e-003 

Dispersion formula
n^2 - 1 = (0.8723761*L^2)/(L^2 - 104.7477) + (0.06426254*L^2)/(L^2 - 0.03860513) + (1.156871*L^2)/(L^2 - 0.008094243) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.020, 0.130, 0.310, 0.720, 0.910, 0.958, 0.966, 0.973, 0.982, 0.986, 0.987, 0.988, 0.988, 0.990, 0.991, 0.992, 0.993, 0.993, 0.994, 0.997, 0.996, 0.983, 0.850, 0.630, 0.520 ]

Brewsters angle(in), 56.3341 deg 
Brewsters angle(out), 33.6659 deg 
Critical angle, 41.7636 deg


OpticsPars_07 OpticsPars_08

Glass: K7 
-------------------------------
Glass code: 511604.253 
Refractive index, Nd = 1.5111
Abbe number, Vd = 60.4100

Constants of Dispersion dn/dT
D0 = -1.67e-006
D1 = 8.80e-009
D2 = -2.86e-011
E0 = 5.42e-007
E1 = 7.81e-010
L_TK = 1.72e-001 µm

Thermal Expansion
CTE = 8.40e-006 1/K, -30°C to +70°C
CTE = 9.70e-006 1/K, +20°C to +300°C 

Density, ro =   2.53 g/cm^3
dPgF =     00 

Dispersion formula
n^2 - 1 = (0.1244123*L^2)/(L^2 - 0.02698359) + (0.8271005*L^2)/(L^2 - 100.3846) + (1.127356*L^2)/(L^2 - 0.007203417) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.100, 0.420, 0.780, 0.940, 0.971, 0.976, 0.983, 0.988, 0.990, 0.990, 0.990, 0.990, 0.990, 0.993, 0.994, 0.994, 0.995, 0.995, 0.996, 0.994, 0.980, 0.790, 0.500, 0.340 ]

Brewsters angle(in), 56.5050 deg 
Brewsters angle(out), 33.4950 deg 
Critical angle, 41.4343 deg


OpticsPars_09 OpticsPars_10

Glass: LAFN7 
-------------------------------
Glass code: 750350.438 
Refractive index, Nd = 1.7495
Abbe number, Vd = 34.9500

Constants of Dispersion dn/dT
D0 = 7.27e-006
D1 = 1.31e-008
D2 = -3.32e-011
E0 = 8.88e-007
E1 = 9.32e-010
L_TK = 2.48e-001 µm

Thermal Expansion
CTE = 5.30e-006 1/K, -30°C to +70°C
CTE = 6.40e-006 1/K, +20°C to +300°C 

Density, ro =   4.38 g/cm^3
dPgF = -2.50e-003 

Dispersion formula
n^2 - 1 = (0.2985128*L^2)/(L^2 - 0.04692163) + (1.668426*L^2)/(L^2 - 0.010316) + (1.077438*L^2)/(L^2 - 82.50785) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.010, 0.220, 0.400, 0.650, 0.780, 0.850, 0.880, 0.940, 0.965, 0.982, 0.994, 0.994, 0.995, 0.995, 0.995, 0.996, 0.996, 0.960, 0.850, 0.410, 0.090 ]

Brewsters angle(in), 60.2481 deg 
Brewsters angle(out), 29.7519 deg 
Critical angle, 34.8613 deg


OpticsPars_11 OpticsPars_12

Glass: LF5 
-------------------------------
Glass code: 581409.322 
Refractive index, Nd = 1.5814
Abbe number, Vd = 40.8500

Constants of Dispersion dn/dT
D0 = -2.27e-006
D1 = 9.71e-009
D2 = -2.83e-011
E0 = 8.36e-007
E1 = 9.95e-010
L_TK = 2.28e-001 µm

Thermal Expansion
CTE = 9.10e-006 1/K, -30°C to +70°C
CTE = 1.06e-005 1/K, +20°C to +300°C 

Density, ro =   3.22 g/cm^3
dPgF = -3.00e-004 

Dispersion formula
n^2 - 1 = (0.8939301*L^2)/(L^2 - 110.4937) + (0.163506*L^2)/(L^2 - 0.04491358) + (1.280356*L^2)/(L^2 - 0.009298544) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0 ]
T    =[ 0.040, 0.570, 0.880, 0.954, 0.961, 0.973, 0.984, 0.992, 0.992, 0.993, 0.994, 0.995, 0.996, 0.997, 0.997, 0.998, 0.998, 0.998, 0.998, 0.992, 0.870, 0.660 ]

Brewsters angle(in), 57.6934 deg 
Brewsters angle(out), 32.3066 deg 
Critical angle, 39.2226 deg


OpticsPars_13 OpticsPars_14

Glass: LLF1 
-------------------------------
Glass code: 548458.294 
Refractive index, Nd = 1.5481
Abbe number, Vd = 45.7500

Constants of Dispersion dn/dT
D0 = 3.25e-007
D1 = 1.74e-008
D2 = -6.12e-011
E0 = 6.53e-007
E1 = 2.58e-010
L_TK = 2.33e-001 µm

Thermal Expansion
CTE = 8.10e-006 1/K, -30°C to +70°C
CTE = 9.20e-006 1/K, +20°C to +300°C 

Density, ro =   2.94 g/cm^3
dPgF = -9.00e-004 

Dispersion formula
n^2 - 1 = (0.8833995*L^2)/(L^2 - 107.5931) + (0.1336645*L^2)/(L^2 - 0.0420143) + (1.216401*L^2)/(L^2 - 0.008578072) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.010, 0.300, 0.810, 0.955, 0.981, 0.984, 0.988, 0.992, 0.993, 0.994, 0.995, 0.996, 0.996, 0.996, 0.997, 0.997, 0.996, 0.996, 0.997, 0.996, 0.990, 0.840, 0.610, 0.500 ]

Brewsters angle(in), 57.1401 deg 
Brewsters angle(out), 32.8599 deg 
Critical angle, 40.2359 deg


OpticsPars_15 OpticsPars_16

Glass: N-BAF10 
-------------------------------
Glass code: 670471.375 
Refractive index, Nd = 1.6700
Abbe number, Vd = 47.1100

Constants of Dispersion dn/dT
D0 = 3.79e-006
D1 = 1.28e-008
D2 = -1.42e-011
E0 = 5.84e-007
E1 = 7.60e-010
L_TK = 2.20e-001 µm

Thermal Expansion
CTE = 6.18e-006 1/K, -30°C to +70°C
CTE = 7.04e-006 1/K, +20°C to +300°C 

Density, ro =   3.75 g/cm^3
dPgF = -1.60e-003 

Dispersion formula
n^2 - 1 = (1.085213*L^2)/(L^2 - 105.6136) + (0.1435594*L^2)/(L^2 - 0.04244898) + (1.585149*L^2)/(L^2 - 0.009266813) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.010, 0.310, 0.440, 0.660, 0.800, 0.880, 0.900, 0.940, 0.954, 0.967, 0.981, 0.990, 0.990, 0.991, 0.990, 0.994, 0.994, 0.980, 0.920, 0.680, 0.450 ]

Brewsters angle(in), 59.0872 deg 
Brewsters angle(out), 30.9128 deg 
Critical angle, 36.7834 deg


OpticsPars_17OpticsPars_18

Glass: N-BAF4 
-------------------------------
Glass code: 606437.289 
Refractive index, Nd = 1.6057
Abbe number, Vd = 43.7200

Constants of Dispersion dn/dT
D0 = 9.39e-007
D1 = 1.24e-008
D2 = -9.00e-012
E0 = 6.17e-007
E1 = 8.42e-010
L_TK = 2.42e-001 µm

Thermal Expansion
CTE = 7.24e-006 1/K, -30°C to +70°C
CTE = 8.29e-006 1/K, +20°C to +300°C 

Density, ro =   2.89 g/cm^3
dPgF = 3.00e-003 

Dispersion formula
n^2 - 1 = (1.14381*L^2)/(L^2 - 110.2789) + (0.1027213*L^2)/(L^2 - 0.05310873) + (1.420563*L^2)/(L^2 - 0.009420154) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.130, 0.280, 0.580, 0.770, 0.870, 0.900, 0.940, 0.959, 0.971, 0.985, 0.992, 0.992, 0.990, 0.991, 0.994, 0.994, 0.977, 0.890, 0.640, 0.420 ]

Brewsters angle(in), 58.0858 deg 
Brewsters angle(out), 31.9142 deg 
Critical angle, 38.5201 deg


OpticsPars_19 OpticsPars_20

Glass: N-BAF51 
-------------------------------
Glass code: 652450.333 
Refractive index, Nd = 1.6522
Abbe number, Vd = 44.9600

Constants of Dispersion dn/dT
D0 = -2.84e-007
D1 = 1.04e-008
D2 = -1.80e-011
E0 = 7.01e-007
E1 = 8.47e-010
L_TK = 2.19e-001 µm

Thermal Expansion
CTE = 8.37e-006 1/K, -30°C to +70°C
CTE = 9.49e-006 1/K, +20°C to +300°C 

Density, ro =   3.33 g/cm^3
dPgF = -1.20e-003 

Dispersion formula
n^2 - 1 = (0.153622*L^2)/(L^2 - 0.04308265) + (1.515036*L^2)/(L^2 - 0.009427347) + (1.154279*L^2)/(L^2 - 124.8899) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.020, 0.330, 0.470, 0.690, 0.820, 0.890, 0.910, 0.940, 0.956, 0.970, 0.985, 0.991, 0.992, 0.990, 0.990, 0.993, 0.993, 0.980, 0.870, 0.630, 0.480 ]

Brewsters angle(in), 58.8160 deg 
Brewsters angle(out), 31.1840 deg 
Critical angle, 37.2460 deg


OpticsPars_21 OpticsPars_22

Glass: N-BAF52 
-------------------------------
Glass code: 609466.305 
Refractive index, Nd = 1.6086
Abbe number, Vd = 46.6000

Constants of Dispersion dn/dT
D0 = 1.15e-006
D1 = 1.27e-008
D2 = -5.08e-012
E0 = 5.64e-007
E1 = 6.38e-010
L_TK = 2.38e-001 µm

Thermal Expansion
CTE = 6.86e-006 1/K, -30°C to +70°C
CTE = 7.83e-006 1/K, +20°C to +300°C 

Density, ro =   3.04 g/cm^3
dPgF = 2.40e-003 

Dispersion formula
n^2 - 1 = (1.098758*L^2)/(L^2 - 105.6919) + (0.09670461*L^2)/(L^2 - 0.05082121) + (1.439034*L^2)/(L^2 - 0.009078001) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.210, 0.370, 0.650, 0.800, 0.880, 0.900, 0.938, 0.954, 0.967, 0.980, 0.989, 0.990, 0.989, 0.990, 0.993, 0.994, 0.975, 0.890, 0.630, 0.390 ]

Brewsters angle(in), 58.1330 deg 
Brewsters angle(out), 31.8670 deg 
Critical angle, 38.4365 deg


OpticsPars_23 OpticsPars_24

Glass: N-BAK1 
-------------------------------
Glass code: 573576.319 
Refractive index, Nd = 1.5725
Abbe number, Vd = 57.5500

Constants of Dispersion dn/dT
D0 = 1.86e-007
D1 = 1.29e-008
D2 = -1.87e-011
E0 = 5.25e-007
E1 = 5.46e-010
L_TK = 1.82e-001 µm

Thermal Expansion
CTE = 7.60e-006 1/K, -30°C to +70°C
CTE = 8.60e-006 1/K, +20°C to +300°C 

Density, ro =   3.19 g/cm^3
dPgF = 2.00e-004 

Dispersion formula
n^2 - 1 = (0.881512*L^2)/(L^2 - 107.2978) + (1.123657*L^2)/(L^2 - 0.006447428) + (0.3092768*L^2)/(L^2 - 0.02222844) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.070, 0.290, 0.570, 0.820, 0.930, 0.969, 0.977, 0.983, 0.988, 0.990, 0.990, 0.990, 0.989, 0.990, 0.992, 0.995, 0.995, 0.995, 0.995, 0.997, 0.996, 0.986, 0.903, 0.721, 0.584 ]

Brewsters angle(in), 57.5465 deg 
Brewsters angle(out), 32.4535 deg 
Critical angle, 39.4890 deg


OpticsPars_25 OpticsPars_26

Glass: N-BAK2 
-------------------------------
Glass code: 540597.286 
Refractive index, Nd = 1.5400
Abbe number, Vd = 59.7100

Constants of Dispersion dn/dT
D0 = -1.45e-006
D1 = 1.10e-008
D2 = 4.89e-012
E0 = 5.16e-007
E1 = 3.05e-010
L_TK = 1.64e-001 µm

Thermal Expansion
CTE = 8.00e-006 1/K, -30°C to +70°C
CTE = 9.00e-006 1/K, +20°C to +300°C 

Density, ro =   2.86 g/cm^3
dPgF = 4.00e-004 

Dispersion formula
n^2 - 1 = (0.937233*L^2)/(L^2 - 113.1184) + (1.016622*L^2)/(L^2 - 0.005923838) + (0.3199031*L^2)/(L^2 - 0.02038284) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.100, 0.400, 0.700, 0.910, 0.971, 0.986, 0.989, 0.990, 0.992, 0.993, 0.993, 0.993, 0.992, 0.992, 0.994, 0.995, 0.995, 0.994, 0.995, 0.996, 0.997, 0.984, 0.850, 0.630, 0.500 ]

Brewsters angle(in), 57.0016 deg 
Brewsters angle(out), 32.9984 deg 
Critical angle, 40.4939 deg


OpticsPars_27 OpticsPars_28

Glass: N-BAK4 
-------------------------------
Glass code: 569560.305 
Refractive index, Nd = 1.5688
Abbe number, Vd = 55.9800

Constants of Dispersion dn/dT
D0 = 3.06e-006
D1 = 1.44e-008
D2 = -2.23e-011
E0 = 5.46e-007
E1 = 6.05e-010
L_TK = 1.89e-001 µm

Thermal Expansion
CTE = 6.99e-006 1/K, -30°C to +70°C
CTE = 7.93e-006 1/K, +20°C to +300°C 

Density, ro =   3.05 g/cm^3
dPgF = -1.00e-003 

Dispersion formula
n^2 - 1 = (0.9453954*L^2)/(L^2 - 105.9659) + (0.1328177*L^2)/(L^2 - 0.03156312) + (1.288346*L^2)/(L^2 - 0.007799806) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.070, 0.550, 0.840, 0.890, 0.940, 0.967, 0.980, 0.983, 0.987, 0.988, 0.989, 0.994, 0.996, 0.996, 0.995, 0.995, 0.997, 0.995, 0.982, 0.900, 0.710, 0.540 ]

Brewsters angle(in), 57.4858 deg 
Brewsters angle(out), 32.5142 deg 
Critical angle, 39.5995 deg


OpticsPars_29 OpticsPars_30

Glass: N-BAK4HT 
-------------------------------
Glass code: 569560.305 
Refractive index, Nd = 1.5688
Abbe number, Vd = 55.9800

Constants of Dispersion dn/dT
D0 = 3.06e-006
D1 = 1.44e-008
D2 = -2.23e-011
E0 = 5.46e-007
E1 = 6.05e-010
L_TK = 1.89e-001 µm

Thermal Expansion
CTE = 6.99e-006 1/K, -30°C to +70°C
CTE = 7.93e-006 1/K, +20°C to +300°C 

Density, ro =   3.05 g/cm^3
dPgF = -1.00e-003 

Dispersion formula
n^2 - 1 = (0.9453954*L^2)/(L^2 - 105.9659) + (0.1328177*L^2)/(L^2 - 0.03156312) + (1.288346*L^2)/(L^2 - 0.007799806) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.095, 0.595, 0.859, 0.900, 0.949, 0.972, 0.983, 0.985, 0.991, 0.992, 0.993, 0.995, 0.996, 0.996, 0.996, 0.996, 0.996, 0.998, 0.991, 0.949, 0.811, 0.673 ]

Brewsters angle(in), 57.4858 deg 
Brewsters angle(out), 32.5142 deg 
Critical angle, 39.5995 deg


OpticsPars_31 OpticsPars_32

Glass: N-BALF4 
-------------------------------
Glass code: 580539.311 
Refractive index, Nd = 1.5796
Abbe number, Vd = 53.8700

Constants of Dispersion dn/dT
D0 = 5.33e-006
D1 = 1.47e-008
D2 = -1.58e-011
E0 = 5.75e-007
E1 = 6.58e-010
L_TK = 1.95e-001 µm

Thermal Expansion
CTE = 6.52e-006 1/K, -30°C to +70°C
CTE = 7.41e-006 1/K, +20°C to +300°C 

Density, ro =   3.11 g/cm^3
dPgF = -1.20e-003 

Dispersion formula
n^2 - 1 = (0.9649294*L^2)/(L^2 - 109.1973) + (0.1420383*L^2)/(L^2 - 0.03306721) + (1.310041*L^2)/(L^2 - 0.007965965) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.380, 0.750, 0.820, 0.900, 0.940, 0.964, 0.970, 0.981, 0.983, 0.986, 0.993, 0.995, 0.996, 0.995, 0.995, 0.997, 0.993, 0.984, 0.920, 0.740, 0.580 ]

Brewsters angle(in), 57.6626 deg 
Brewsters angle(out), 32.3374 deg 
Critical angle, 39.2783 deg


OpticsPars_33 OpticsPars_34

Glass: N-BALF5 
-------------------------------
Glass code: 547536.261 
Refractive index, Nd = 1.5474
Abbe number, Vd = 53.6300

Constants of Dispersion dn/dT
D0 = 1.14e-006
D1 = 1.29e-008
D2 = -1.46e-011
E0 = 5.02e-007
E1 = 5.87e-010
L_TK = 2.19e-001 µm

Thermal Expansion
CTE = 7.34e-006 1/K, -30°C to +70°C
CTE = 8.43e-006 1/K, +20°C to +300°C 

Density, ro =   2.61 g/cm^3
dPgF = -4.00e-004 

Dispersion formula
n^2 - 1 = (1.050489*L^2)/(L^2 - 107.0973) + (0.07193009*L^2)/(L^2 - 0.044192) + (1.28386*L^2)/(L^2 - 0.00825816) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.128, 0.600, 0.710, 0.850, 0.920, 0.957, 0.965, 0.978, 0.984, 0.988, 0.992, 0.995, 0.995, 0.993, 0.993, 0.995, 0.991, 0.973, 0.810, 0.500, 0.300 ]

Brewsters angle(in), 57.1275 deg 
Brewsters angle(out), 32.8725 deg 
Critical angle, 40.2594 deg


OpticsPars_35 OpticsPars_36

Glass: N-BASF2 
-------------------------------
Glass code: 664360.315 
Refractive index, Nd = 1.6645
Abbe number, Vd = 36.0000

Constants of Dispersion dn/dT
D0 = 1.89e-006
D1 = 1.22e-008
D2 = -1.61e-011
E0 = 7.77e-007
E1 = 9.96e-010
L_TK = 2.56e-001 µm

Thermal Expansion
CTE = 7.12e-006 1/K, -30°C to +70°C
CTE = 8.13e-006 1/K, +20°C to +300°C 

Density, ro =   3.15 g/cm^3
dPgF = 5.70e-003 

Dispersion formula
n^2 - 1 = (0.1569711*L^2)/(L^2 - 0.05622788) + (1.536521*L^2)/(L^2 - 0.01084357) + (1.301968*L^2)/(L^2 - 131.3397) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.060, 0.320, 0.580, 0.750, 0.800, 0.890, 0.930, 0.951, 0.971, 0.985, 0.987, 0.985, 0.985, 0.990, 0.997, 0.985, 0.930, 0.760, 0.680 ]

Brewsters angle(in), 59.0027 deg 
Brewsters angle(out), 30.9973 deg 
Critical angle, 36.9269 deg


OpticsPars_37 OpticsPars_38

Glass: N-BASF64 
-------------------------------
Glass code: 704394.32 
Refractive index, Nd = 1.7040
Abbe number, Vd = 39.3800

Constants of Dispersion dn/dT
D0 = 1.60e-006
D1 = 1.02e-008
D2 = -2.68e-011
E0 = 7.87e-007
E1 = 9.65e-010
L_TK = 2.29e-001 µm

Thermal Expansion
CTE = 7.30e-006 1/K, -30°C to +70°C
CTE = 8.70e-006 1/K, +20°C to +300°C 

Density, ro =   3.20 g/cm^3
dPgF = -6.00e-004 

Dispersion formula
n^2 - 1 = (0.1713198*L^2)/(L^2 - 0.04993948) + (1.655543*L^2)/(L^2 - 0.01044856) + (1.336644*L^2)/(L^2 - 118.9615) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.220, 0.370, 0.610, 0.750, 0.820, 0.840, 0.880, 0.900, 0.920, 0.940, 0.950, 0.949, 0.949, 0.955, 0.970, 0.985, 0.970, 0.900, 0.670, 0.450 ]

Brewsters angle(in), 59.5933 deg 
Brewsters angle(out), 30.4067 deg 
Critical angle, 35.9341 deg


OpticsPars_39 OpticsPars_40

Glass: N-BK10 
-------------------------------
Glass code: 498670.239 
Refractive index, Nd = 1.4978
Abbe number, Vd = 66.9500

Constants of Dispersion dn/dT
D0 = 3.32e-006
D1 = 1.72e-008
D2 = -2.05e-011
E0 = 3.57e-007
E1 = 3.90e-010
L_TK = 1.69e-001 µm

Thermal Expansion
CTE = 5.80e-006 1/K, -30°C to +70°C
CTE = 6.60e-006 1/K, +20°C to +300°C 

Density, ro =   2.39 g/cm^3
dPgF = -8.00e-004 

Dispersion formula
n^2 - 1 = (0.9846108*L^2)/(L^2 - 99.75753) + (0.8883081*L^2)/(L^2 - 0.005169008) + (0.3289645*L^2)/(L^2 - 0.016119) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 290.0, 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.110, 0.420, 0.710, 0.860, 0.947, 0.978, 0.986, 0.986, 0.985, 0.989, 0.990, 0.990, 0.989, 0.989, 0.990, 0.991, 0.993, 0.993, 0.992, 0.993, 0.995, 0.996, 0.980, 0.950, 0.710, 0.470 ]

Brewsters angle(in), 56.2715 deg 
Brewsters angle(out), 33.7285 deg 
Critical angle, 41.8849 deg


OpticsPars_41 OpticsPars_42

Glass: N-BK7 
-------------------------------
Glass code: 517642.251 
Refractive index, Nd = 1.5168
Abbe number, Vd = 64.1700

Constants of Dispersion dn/dT
D0 = 1.86e-006
D1 = 1.31e-008
D2 = -1.37e-011
E0 = 4.34e-007
E1 = 6.27e-010
L_TK = 1.70e-001 µm

Thermal Expansion
CTE = 7.10e-006 1/K, -30°C to +70°C
CTE = 8.30e-006 1/K, +20°C to +300°C 

Density, ro =   2.51 g/cm^3
dPgF = -9.00e-004 

Dispersion formula
n^2 - 1 = (1.010469*L^2)/(L^2 - 103.5607) + (1.039612*L^2)/(L^2 - 0.006000699) + (0.2317923*L^2)/(L^2 - 0.02001791) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.050, 0.250, 0.520, 0.780, 0.920, 0.971, 0.977, 0.983, 0.989, 0.992, 0.993, 0.993, 0.992, 0.993, 0.994, 0.996, 0.995, 0.994, 0.994, 0.996, 0.997, 0.980, 0.840, 0.560, 0.360 ]

Brewsters angle(in), 56.6038 deg 
Brewsters angle(out), 33.3962 deg 
Critical angle, 41.2452 deg


OpticsPars_43 OpticsPars_44

Glass: N-BK7HT 
-------------------------------
Glass code: 517642.251 
Refractive index, Nd = 1.5168
Abbe number, Vd = 64.1700

Constants of Dispersion dn/dT
D0 = 1.86e-006
D1 = 1.31e-008
D2 = -1.37e-011
E0 = 4.34e-007
E1 = 6.27e-010
L_TK = 1.70e-001 µm

Thermal Expansion
CTE = 7.10e-006 1/K, -30°C to +70°C
CTE = 8.30e-006 1/K, +20°C to +300°C 

Density, ro =   2.51 g/cm^3
dPgF = -9.00e-004 

Dispersion formula
n^2 - 1 = (1.010469*L^2)/(L^2 - 103.5607) + (1.039612*L^2)/(L^2 - 0.006000699) + (0.2317923*L^2)/(L^2 - 0.02001791) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.023, 0.242, 0.600, 0.875, 0.964, 0.985, 0.989, 0.992, 0.994, 0.996, 0.996, 0.996, 0.996, 0.996, 0.997, 0.998, 0.998, 0.997, 0.997, 0.998, 0.999, 0.987, 0.888, 0.657, 0.490 ]

Brewsters angle(in), 56.6038 deg 
Brewsters angle(out), 33.3962 deg 
Critical angle, 41.2452 deg


OpticsPars_46 OpticsPars_45

Glass: N-F2 
-------------------------------
Glass code: 620364.265 
Refractive index, Nd = 1.6201
Abbe number, Vd = 36.4300

Constants of Dispersion dn/dT
D0 = 4.62e-007
D1 = 1.17e-008
D2 = -2.35e-011
E0 = 7.47e-007
E1 = 9.81e-010
L_TK = 2.63e-001 µm

Thermal Expansion
CTE = 7.84e-006 1/K, -30°C to +70°C
CTE = 9.06e-006 1/K, +20°C to +300°C 

Density, ro =   2.65 g/cm^3
dPgF = 5.60e-003 

Dispersion formula
n^2 - 1 = (0.1592014*L^2)/(L^2 - 0.05469318) + (1.39757*L^2)/(L^2 - 0.009959061) + (1.268654*L^2)/(L^2 - 119.2483) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.040, 0.160, 0.510, 0.750, 0.870, 0.900, 0.950, 0.963, 0.973, 0.984, 0.992, 0.993, 0.991, 0.990, 0.992, 0.996, 0.977, 0.880, 0.640, 0.480 ]

Brewsters angle(in), 58.3144 deg 
Brewsters angle(out), 31.6856 deg 
Critical angle, 38.1167 deg


OpticsPars_47OpticsPars_48

Glass: N-FK5 
-------------------------------
Glass code: 487704.245 
Refractive index, Nd = 1.4875
Abbe number, Vd = 70.4100

Constants of Dispersion dn/dT
D0 = -7.24e-006
D1 = 1.58e-008
D2 = -9.51e-012
E0 = 3.51e-007
E1 = 4.61e-010
L_TK = 1.56e-001 µm

Thermal Expansion
CTE = 9.20e-006 1/K, -30°C to +70°C
CTE = 1.00e-005 1/K, +20°C to +300°C 

Density, ro =   2.45 g/cm^3
dPgF = 3.60e-003 

Dispersion formula
n^2 - 1 = (0.9107902*L^2)/(L^2 - 97.86003) + (0.8443093*L^2)/(L^2 - 0.00475112) + (0.3441478*L^2)/(L^2 - 0.01498148) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 260.0, 270.0, 280.0, 290.0, 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.000, 0.020, 0.180, 0.500, 0.760, 0.890, 0.950, 0.977, 0.988, 0.992, 0.992, 0.991, 0.994, 0.994, 0.994, 0.993, 0.992, 0.990, 0.989, 0.991, 0.991, 0.990, 0.991, 0.995, 0.998, 0.965, 0.930, 0.630, 0.380 ]

Brewsters angle(in), 56.0881 deg 
Brewsters angle(out), 33.9119 deg 
Critical angle, 42.2428 deg


OpticsPars_49 OpticsPars_50

Glass: N-FK51A 
-------------------------------
Glass code: 487845.368 
Refractive index, Nd = 1.4866
Abbe number, Vd = 84.4700

Constants of Dispersion dn/dT
D0 = -1.83e-005
D1 = -7.89e-009
D2 = -1.63e-012
E0 = 3.74e-007
E1 = 3.46e-010
L_TK = 1.50e-001 µm

Thermal Expansion
CTE = 1.27e-005 1/K, -30°C to +70°C
CTE = 1.48e-005 1/K, +20°C to +300°C 

Density, ro =   3.67 g/cm^3
dPgF = 3.42e-002 

Dispersion formula
n^2 - 1 = (0.9046517*L^2)/(L^2 - 168.6813) + (0.9712478*L^2)/(L^2 - 0.00472302) + (0.2169014*L^2)/(L^2 - 0.01535756) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 290.0, 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.010, 0.035, 0.120, 0.300, 0.630, 0.875, 0.963, 0.976, 0.988, 0.992, 0.993, 0.993, 0.992, 0.992, 0.993, 0.996, 0.997, 0.997, 0.996, 0.995, 0.995, 0.994, 0.980, 0.940, 0.840, 0.750 ]

Brewsters angle(in), 56.0715 deg 
Brewsters angle(out), 33.9285 deg 
Critical angle, 42.2753 deg


OpticsPars_51 OpticsPars_52

Glass: N-K5 
-------------------------------
Glass code: 522595.259 
Refractive index, Nd = 1.5225
Abbe number, Vd = 59.4800

Constants of Dispersion dn/dT
D0 = -4.13e-007
D1 = 1.03e-008
D2 = -3.40e-011
E0 = 4.73e-007
E1 = 5.19e-010
L_TK = 2.13e-001 µm

Thermal Expansion
CTE = 8.20e-006 1/K, -30°C to +70°C
CTE = 9.60e-006 1/K, +20°C to +300°C 

Density, ro =   2.59 g/cm^3
dPgF =     00 

Dispersion formula
n^2 - 1 = (0.9305117*L^2)/(L^2 - 111.9828) + (1.085118*L^2)/(L^2 - 0.006610995) + (0.199562*L^2)/(L^2 - 0.02411087) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.020, 0.210, 0.630, 0.880, 0.956, 0.962, 0.977, 0.984, 0.988, 0.989, 0.991, 0.991, 0.991, 0.993, 0.995, 0.995, 0.993, 0.992, 0.994, 0.995, 0.986, 0.870, 0.660, 0.530 ]

Brewsters angle(in), 56.7023 deg 
Brewsters angle(out), 33.2977 deg 
Critical angle, 41.0577 deg


OpticsPars_53 OpticsPars_54

Glass: N-KF9 
-------------------------------
Glass code: 523515.25 
Refractive index, Nd = 1.5235
Abbe number, Vd = 51.5400

Constants of Dispersion dn/dT
D0 = -1.66e-006
D1 = 8.44e-009
D2 = -1.01e-011
E0 = 6.10e-007
E1 = 6.96e-010
L_TK = 2.17e-001 µm

Thermal Expansion
CTE = 9.61e-006 1/K, -30°C to +70°C
CTE = 1.09e-005 1/K, +20°C to +300°C 

Density, ro =   2.50 g/cm^3
dPgF = -1.40e-003 

Dispersion formula
n^2 - 1 = (0.9208198*L^2)/(L^2 - 112.5724) + (0.08933466*L^2)/(L^2 - 0.04040108) + (1.192868*L^2)/(L^2 - 0.008391547) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.210, 0.680, 0.770, 0.880, 0.940, 0.965, 0.975, 0.985, 0.988, 0.990, 0.994, 0.996, 0.996, 0.994, 0.995, 0.997, 0.995, 0.981, 0.740, 0.430, 0.300 ]

Brewsters angle(in), 56.7191 deg 
Brewsters angle(out), 33.2809 deg 
Critical angle, 41.0259 deg

OpticsPars_55 OpticsPars_56

 

Glass: N-KZFS11 
-------------------------------
Glass code: 638424.32 
Refractive index, Nd = 1.6378
Abbe number, Vd = 42.4100

Constants of Dispersion dn/dT
D0 = 3.34e-006
D1 = 1.16e-008
D2 = -1.80e-011
E0 = 6.32e-007
E1 = 7.21e-010
L_TK = 2.06e-001 µm

Thermal Expansion
CTE = 6.56e-006 1/K, -30°C to +70°C
CTE = 7.56e-006 1/K, +20°C to +300°C 

Density, ro =   3.20 g/cm^3
dPgF = -1.20e-002 

Dispersion formula
n^2 - 1 = (1.151617*L^2)/(L^2 - 88.43105) + (0.2892416*L^2)/(L^2 - 0.03442397) + (1.332224*L^2)/(L^2 - 0.008402985) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.020, 0.150, 0.450, 0.730, 0.880, 0.910, 0.940, 0.957, 0.968, 0.971, 0.975, 0.978, 0.982, 0.989, 0.993, 0.992, 0.992, 0.992, 0.994, 0.999, 0.977, 0.914, 0.535, 0.183 ]

Brewsters angle(in), 58.5920 deg 
Brewsters angle(out), 31.4080 deg 
Critical angle, 37.6325 deg


OpticsPars_57 OpticsPars_58

Glass: N-KZFS2 
-------------------------------
Glass code: 558540.255 
Refractive index, Nd = 1.5584
Abbe number, Vd = 54.0100

Constants of Dispersion dn/dT
D0 = 6.77e-006
D1 = 1.31e-008
D2 = -1.23e-011
E0 = 3.84e-007
E1 = 5.51e-010
L_TK = 1.96e-001 µm

Thermal Expansion
CTE = 4.44e-006 1/K, -30°C to +70°C
CTE = 5.40e-006 1/K, +20°C to +300°C 

Density, ro =   2.54 g/cm^3
dPgF = -1.11e-002 

Dispersion formula
n^2 - 1 = (0.9039763*L^2)/(L^2 - 70.17311) + (0.1535694*L^2)/(L^2 - 0.03080536) + (1.236976*L^2)/(L^2 - 0.007471705) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.030, 0.240, 0.590, 0.800, 0.890, 0.910, 0.930, 0.950, 0.963, 0.967, 0.975, 0.981, 0.987, 0.992, 0.994, 0.994, 0.994, 0.994, 0.996, 0.991, 0.940, 0.800, 0.260, 0.040 ]

Brewsters angle(in), 57.3117 deg 
Brewsters angle(out), 32.6883 deg 
Critical angle, 39.9187 deg


OpticsPars_59 OpticsPars_60

Glass: N-KZFS4 
-------------------------------
Glass code: 613445.3 
Refractive index, Nd = 1.6134
Abbe number, Vd = 44.4900

Constants of Dispersion dn/dT
D0 = 1.81e-006
D1 = 1.16e-008
D2 = -7.99e-012
E0 = 6.20e-007
E1 = 7.94e-010
L_TK = 2.05e-001 µm

Thermal Expansion
CTE = 7.30e-006 1/K, -30°C to +70°C
CTE = 8.20e-006 1/K, +20°C to +300°C 

Density, ro =   3.00 g/cm^3
dPgF = -1.00e-002 

Dispersion formula
n^2 - 1 = (1.09963*L^2)/(L^2 - 90.3867) + (0.1975755*L^2)/(L^2 - 0.03717672) + (1.350554*L^2)/(L^2 - 0.008762821) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.150, 0.600, 0.820, 0.860, 0.910, 0.930, 0.948, 0.952, 0.961, 0.968, 0.976, 0.987, 0.992, 0.993, 0.992, 0.993, 0.994, 0.996, 0.961, 0.881, 0.486, 0.186 ]

Brewsters angle(in), 58.2084 deg 
Brewsters angle(out), 31.7916 deg 
Critical angle, 38.3033 deg


OpticsPars_61 OpticsPars_62

Glass: N-KZFS4HT 
-------------------------------
Glass code: 613445.3 
Refractive index, Nd = 1.6134
Abbe number, Vd = 44.4900

Constants of Dispersion dn/dT
D0 = 1.81e-006
D1 = 1.16e-008
D2 = -7.99e-012
E0 = 6.20e-007
E1 = 7.94e-010
L_TK = 2.05e-001 µm

Thermal Expansion
CTE = 7.30e-006 1/K, -30°C to +70°C
CTE = 8.20e-006 1/K, +20°C to +300°C 

Density, ro =   3.00 g/cm^3
dPgF = -1.00e-002 

Dispersion formula
n^2 - 1 = (1.09963*L^2)/(L^2 - 90.3867) + (0.1975755*L^2)/(L^2 - 0.03717672) + (1.350554*L^2)/(L^2 - 0.008762821) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.002, 0.223, 0.700, 0.874, 0.901, 0.934, 0.951, 0.962, 0.966, 0.971, 0.975, 0.980, 0.988, 0.993, 0.993, 0.992, 0.993, 0.994, 0.999, 0.961, 0.881, 0.486, 0.186 ]

Brewsters angle(in), 58.2084 deg 
Brewsters angle(out), 31.7916 deg 
Critical angle, 38.3033 deg


OpticsPars_63 OpticsPars_64

Glass: N-KZFS5 
-------------------------------
Glass code: 654397.304 
Refractive index, Nd = 1.6541
Abbe number, Vd = 39.7000

Constants of Dispersion dn/dT
D0 = 4.54e-006
D1 = 1.19e-008
D2 = 2.93e-012
E0 = 6.89e-007
E1 = 8.60e-010
L_TK = 2.30e-001 µm

Thermal Expansion
CTE = 6.38e-006 1/K, -30°C to +70°C
CTE = 7.39e-006 1/K, +20°C to +300°C 

Density, ro =   3.04 g/cm^3
dPgF = -6.00e-003 

Dispersion formula
n^2 - 1 = (1.2659*L^2)/(L^2 - 106.4363) + (0.1935845*L^2)/(L^2 - 0.04454776) + (1.474608*L^2)/(L^2 - 0.009861438) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.080, 0.560, 0.790, 0.830, 0.880, 0.920, 0.940, 0.946, 0.958, 0.965, 0.974, 0.985, 0.992, 0.993, 0.992, 0.992, 0.994, 0.998, 0.970, 0.910, 0.620, 0.350 ]

Brewsters angle(in), 58.8449 deg 
Brewsters angle(out), 31.1551 deg 
Critical angle, 37.1965 deg


OpticsPars_65 OpticsPars_66

Glass: N-KZFS8 
-------------------------------
Glass code: 720347.32 
Refractive index, Nd = 1.7205
Abbe number, Vd = 34.7000

Constants of Dispersion dn/dT
D0 = 7.93e-007
D1 = 6.47e-009
D2 = -5.00e-012
E0 = 7.71e-007
E1 = 1.01e-009
L_TK = 2.54e-001 µm

Thermal Expansion
CTE = 7.77e-006 1/K, -30°C to +70°C
CTE = 9.43e-006 1/K, +20°C to +300°C 

Density, ro =   3.20 g/cm^3
dPgF = -2.10e-003 

Dispersion formula
n^2 - 1 = (0.2436988*L^2)/(L^2 - 0.04942078) + (1.626937*L^2)/(L^2 - 0.01088086) + (1.620071*L^2)/(L^2 - 131.0092) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.010, 0.360, 0.680, 0.740, 0.820, 0.870, 0.910, 0.920, 0.940, 0.955, 0.971, 0.985, 0.993, 0.995, 0.995, 0.995, 0.996, 0.999, 0.983, 0.920, 0.700, 0.510 ]

Brewsters angle(in), 59.8333 deg 
Brewsters angle(out), 30.1667 deg 
Critical angle, 35.5376 deg


OpticsPars_67 OpticsPars_68

Glass: N-LAF2 
-------------------------------
Glass code: 744449.43 
Refractive index, Nd = 1.7440
Abbe number, Vd = 44.8500

Constants of Dispersion dn/dT
D0 = -3.64e-006
D1 = 9.20e-009
D2 = -6.00e-012
E0 = 6.43e-007
E1 = 6.11e-010
L_TK = 2.20e-001 µm

Thermal Expansion
CTE = 8.06e-006 1/K, -30°C to +70°C
CTE = 9.10e-006 1/K, +20°C to +300°C 

Density, ro =   4.29 g/cm^3
dPgF = -2.70e-003 

Dispersion formula
n^2 - 1 = (1.093004*L^2)/(L^2 - 100.6877) + (0.1572956*L^2)/(L^2 - 0.04424318) + (1.809842*L^2)/(L^2 - 0.01017116) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.025, 0.310, 0.430, 0.630, 0.760, 0.840, 0.865, 0.915, 0.940, 0.962, 0.983, 0.994, 0.993, 0.992, 0.993, 0.996, 0.997, 0.990, 0.930, 0.690, 0.400 ]

Brewsters angle(in), 60.1699 deg 
Brewsters angle(out), 29.8301 deg 
Critical angle, 34.9880 deg


OpticsPars_69 OpticsPars_70

Glass: N-LAF21 
-------------------------------
Glass code: 788475.428 
Refractive index, Nd = 1.7880
Abbe number, Vd = 47.4900

Constants of Dispersion dn/dT
D0 = 3.11e-006
D1 = 1.13e-008
D2 = -2.07e-011
E0 = 5.88e-007
E1 = 6.32e-010
L_TK = 1.99e-001 µm

Thermal Expansion
CTE = 5.99e-006 1/K, -30°C to +70°C
CTE = 7.08e-006 1/K, +20°C to +300°C 

Density, ro =   4.28 g/cm^3
dPgF = -8.40e-003 

Dispersion formula
n^2 - 1 = (1.220486*L^2)/(L^2 - 83.24049) + (1.871345*L^2)/(L^2 - 0.009333223) + (0.250783*L^2)/(L^2 - 0.03456378) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.040, 0.333, 0.634, 0.707, 0.814, 0.878, 0.916, 0.928, 0.952, 0.964, 0.976, 0.989, 0.993, 0.992, 0.992, 0.993, 0.994, 0.996, 0.971, 0.862, 0.429, 0.121 ]

Brewsters angle(in), 60.7824 deg 
Brewsters angle(out), 29.2176 deg 
Critical angle, 34.0063 deg


OpticsPars_71 OpticsPars_72

Glass: N-LAF33 
-------------------------------
Glass code: 786441.436 
Refractive index, Nd = 1.7858
Abbe number, Vd = 44.0500

Constants of Dispersion dn/dT
D0 = 8.17e-006
D1 = 1.24e-008
D2 = -1.65e-011
E0 = 7.11e-007
E1 = 8.59e-010
L_TK = 2.10e-001 µm

Thermal Expansion
CTE = 5.60e-006 1/K, -30°C to +70°C
CTE = 6.70e-006 1/K, +20°C to +300°C 

Density, ro =   4.36 g/cm^3
dPgF = -7.10e-003 

Dispersion formula
n^2 - 1 = (1.159819*L^2)/(L^2 - 87.34487) + (1.796534*L^2)/(L^2 - 0.009273135) + (0.3115779*L^2)/(L^2 - 0.03582012) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.002, 0.090, 0.399, 0.648, 0.714, 0.813, 0.874, 0.910, 0.922, 0.946, 0.959, 0.973, 0.988, 0.994, 0.994, 0.994, 0.995, 0.996, 0.998, 0.974, 0.868, 0.478, 0.154 ]

Brewsters angle(in), 60.7526 deg 
Brewsters angle(out), 29.2474 deg 
Critical angle, 34.0535 deg


OpticsPars_73 OpticsPars_74

Glass: N-LAF34 
-------------------------------
Glass code: 773496.424 
Refractive index, Nd = 1.7725
Abbe number, Vd = 49.6200

Constants of Dispersion dn/dT
D0 = 3.89e-006
D1 = 1.02e-008
D2 = -1.91e-011
E0 = 5.88e-007
E1 = 7.57e-010
L_TK = 1.81e-001 µm

Thermal Expansion
CTE = 5.80e-006 1/K, -30°C to +70°C
CTE = 7.00e-006 1/K, +20°C to +300°C 

Density, ro =   4.24 g/cm^3
dPgF = -8.50e-003 

Dispersion formula
n^2 - 1 = (1.189252*L^2)/(L^2 - 85.17806) + (1.75837*L^2)/(L^2 - 0.0087281) + (0.3135378*L^2)/(L^2 - 0.02930208) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.027, 0.117, 0.332, 0.600, 0.785, 0.828, 0.891, 0.929, 0.950, 0.958, 0.971, 0.978, 0.986, 0.993, 0.996, 0.995, 0.995, 0.996, 0.996, 0.998, 0.973, 0.868, 0.449, 0.139 ]

Brewsters angle(in), 60.5694 deg 
Brewsters angle(out), 29.4306 deg 
Critical angle, 34.3450 deg


OpticsPars_75 OpticsPars_76

Glass: N-LAF35 
-------------------------------
Glass code: 743494.412 
Refractive index, Nd = 1.7433
Abbe number, Vd = 49.4000

Constants of Dispersion dn/dT
D0 = 8.98e-006
D1 = 1.26e-008
D2 = -1.23e-011
E0 = 6.24e-007
E1 = 6.86e-010
L_TK = 1.94e-001 µm

Thermal Expansion
CTE = 5.27e-006 1/K, -30°C to +70°C
CTE = 6.38e-006 1/K, +20°C to +300°C 

Density, ro =   4.12 g/cm^3
dPgF = -8.40e-003 

Dispersion formula
n^2 - 1 = (0.4558755*L^2)/(L^2 - 0.02600467) + (1.074692*L^2)/(L^2 - 80.59452) + (1.516974*L^2)/(L^2 - 0.007509432) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.080, 0.200, 0.270, 0.550, 0.760, 0.810, 0.880, 0.920, 0.940, 0.950, 0.967, 0.976, 0.985, 0.992, 0.995, 0.994, 0.994, 0.996, 0.996, 0.995, 0.970, 0.850, 0.430, 0.100 ]

Brewsters angle(in), 60.1604 deg 
Brewsters angle(out), 29.8396 deg 
Critical angle, 35.0034 deg


OpticsPars_77 OpticsPars_78

Glass: N-LAF7 
-------------------------------
Glass code: 749348.373 
Refractive index, Nd = 1.7495
Abbe number, Vd = 34.8200

Constants of Dispersion dn/dT
D0 = 9.21e-007
D1 = 1.10e-008
D2 = -1.75e-011
E0 = 7.67e-007
E1 = 1.10e-009
L_TK = 2.64e-001 µm

Thermal Expansion
CTE = 7.30e-006 1/K, -30°C to +70°C
CTE = 8.39e-006 1/K, +20°C to +300°C 

Density, ro =   3.73 g/cm^3
dPgF = 4.20e-003 

Dispersion formula
n^2 - 1 = (0.2267106*L^2)/(L^2 - 0.05386266) + (1.325255*L^2)/(L^2 - 106.2687) + (1.740288*L^2)/(L^2 - 0.01079256) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.012, 0.050, 0.190, 0.350, 0.490, 0.540, 0.680, 0.770, 0.850, 0.930, 0.970, 0.980, 0.985, 0.988, 0.992, 0.996, 0.990, 0.940, 0.700, 0.380 ]

Brewsters angle(in), 60.2481 deg 
Brewsters angle(out), 29.7519 deg 
Critical angle, 34.8613 deg


OpticsPars_79 OpticsPars_80
Glass: N-LAK10 
-------------------------------
Glass code: 720506.369 
Refractive index, Nd = 1.7200
Abbe number, Vd = 50.6200

Constants of Dispersion dn/dT
D0 = 4.10e-006
D1 = 1.23e-008
D2 = -7.85e-012
E0 = 5.08e-007
E1 = 5.76e-010
L_TK = 2.05e-001 µm

Thermal Expansion
CTE = 5.68e-006 1/K, -30°C to +70°C
CTE = 6.83e-006 1/K, +20°C to +300°C 

Density, ro =   3.69 g/cm^3
dPgF = -7.20e-003 

Dispersion formula
n^2 - 1 = (1.19387*L^2)/(L^2 - 82.90091) + (0.1692578*L^2)/(L^2 - 0.03634165) + (1.72878*L^2)/(L^2 - 0.008860146) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.130, 0.520, 0.630, 0.770, 0.850, 0.900, 0.910, 0.940, 0.963, 0.977, 0.988, 0.994, 0.993, 0.994, 0.994, 0.995, 0.995, 0.977, 0.880, 0.440, 0.120 ]

Brewsters angle(in), 59.8269 deg 
Brewsters angle(out), 30.1731 deg 
Critical angle, 35.5480 deg


OpticsPars_81 OpticsPars_82

Glass: N-LAK12 
-------------------------------
Glass code: 678552.41 
Refractive index, Nd = 1.6779
Abbe number, Vd = 55.2000

Constants of Dispersion dn/dT
D0 = -5.67e-006
D1 = 8.27e-009
D2 = 1.27e-012
E0 = 5.25e-007
E1 = 6.30e-010
L_TK = 1.62e-001 µm

Thermal Expansion
CTE = 7.60e-006 1/K, -30°C to +70°C
CTE = 9.30e-006 1/K, +20°C to +300°C 

Density, ro =   4.10 g/cm^3
dPgF = -2.40e-003 

Dispersion formula
n^2 - 1 = (0.9780144*L^2)/(L^2 - 95.48735) + (1.173657*L^2)/(L^2 - 0.005770318) + (0.5889924*L^2)/(L^2 - 0.02004017) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.010, 0.150, 0.460, 0.730, 0.790, 0.870, 0.920, 0.940, 0.943, 0.952, 0.958, 0.968, 0.986, 0.991, 0.990, 0.988, 0.989, 0.993, 0.992, 0.975, 0.850, 0.510, 0.270 ]

Brewsters angle(in), 59.2058 deg 
Brewsters angle(out), 30.7942 deg 
Critical angle, 36.5827 deg


OpticsPars_83 OpticsPars_84

Glass: N-LAK14 
-------------------------------
Glass code: 697554.363 
Refractive index, Nd = 1.6968
Abbe number, Vd = 55.4100

Constants of Dispersion dn/dT
D0 = 2.68e-006
D1 = 1.15e-008
D2 = -1.44e-011
E0 = 3.72e-007
E1 = 5.53e-010
L_TK = 2.26e-001 µm

Thermal Expansion
CTE = 5.50e-006 1/K, -30°C to +70°C
CTE = 6.90e-006 1/K, +20°C to +300°C 

Density, ro =   3.63 g/cm^3
dPgF = -7.90e-003 

Dispersion formula
n^2 - 1 = (0.3188668*L^2)/(L^2 - 0.02420248) + (1.142872*L^2)/(L^2 - 80.95652) + (1.507812*L^2)/(L^2 - 0.007460987) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.040, 0.120, 0.330, 0.610, 0.800, 0.840, 0.900, 0.930, 0.953, 0.960, 0.971, 0.977, 0.984, 0.992, 0.995, 0.993, 0.992, 0.994, 0.995, 0.995, 0.960, 0.840, 0.370, 0.090 ]

Brewsters angle(in), 59.4873 deg 
Brewsters angle(out), 30.5127 deg 
Critical angle, 36.1105 deg


OpticsPars_85 OpticsPars_86

 

Glass: N-LAK21 
-------------------------------
Glass code: 640601.374 
Refractive index, Nd = 1.6405
Abbe number, Vd = 60.1000

Constants of Dispersion dn/dT
D0 = -2.36e-006
D1 = 1.15e-008
D2 = 1.11e-011
E0 = 3.10e-007
E1 = 2.78e-010
L_TK = 2.34e-001 µm

Thermal Expansion
CTE = 6.80e-006 1/K, -30°C to +70°C
CTE = 8.10e-006 1/K, +20°C to +300°C 

Density, ro =   3.74 g/cm^3
dPgF = -1.70e-003 

Dispersion formula
n^2 - 1 = (1.227181*L^2)/(L^2 - 0.006020757) + (1.012848*L^2)/(L^2 - 88.43701) + (0.4207837*L^2)/(L^2 - 0.01968629) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.040, 0.240, 0.570, 0.780, 0.830, 0.900, 0.930, 0.950, 0.955, 0.963, 0.969, 0.976, 0.988, 0.992, 0.992, 0.990, 0.991, 0.994, 0.994, 0.970, 0.870, 0.490, 0.210 ]

Brewsters angle(in), 58.6346 deg 
Brewsters angle(out), 31.3654 deg 
Critical angle, 37.5587 deg


OpticsPars_87 OpticsPars_88

Glass: N-LAK22 
-------------------------------
Glass code: 651559.377 
Refractive index, Nd = 1.6511
Abbe number, Vd = 55.8900

Constants of Dispersion dn/dT
D0 = 1.36e-006
D1 = 1.49e-008
D2 = -1.29e-011
E0 = 3.41e-007
E1 = 2.09e-010
L_TK = 2.62e-001 µm

Thermal Expansion
CTE = 6.60e-006 1/K, -30°C to +70°C
CTE = 7.40e-006 1/K, +20°C to +300°C 

Density, ro =   3.77 g/cm^3
dPgF = -3.10e-003 

Dispersion formula
n^2 - 1 = (1.040884*L^2)/(L^2 - 100.834) + (1.142298*L^2)/(L^2 - 0.005857786) + (0.5351384*L^2)/(L^2 - 0.01985461) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.020, 0.100, 0.350, 0.655, 0.840, 0.873, 0.920, 0.950, 0.964, 0.968, 0.973, 0.975, 0.980, 0.988, 0.993, 0.993, 0.991, 0.992, 0.994, 0.994, 0.978, 0.900, 0.620, 0.370 ]

Brewsters angle(in), 58.7990 deg 
Brewsters angle(out), 31.2010 deg 
Critical angle, 37.2753 deg


OpticsPars_89 OpticsPars_90

Glass: N-LAK33A 
-------------------------------
Glass code: 754523.422 
Refractive index, Nd = 1.7539
Abbe number, Vd = 52.2700

Constants of Dispersion dn/dT
D0 = 2.63e-006
D1 = 1.11e-008
D2 = -3.92e-012
E0 = 5.02e-007
E1 = 5.08e-010
L_TK = 1.88e-001 µm

Thermal Expansion
CTE = 5.80e-006 1/K, -30°C to +70°C
CTE = 7.02e-006 1/K, +20°C to +300°C 

Density, ro =   4.22 g/cm^3
dPgF = -8.60e-003 

Dispersion formula
n^2 - 1 = (1.44117*L^2)/(L^2 - 0.006809339) + (0.5717495*L^2)/(L^2 - 0.02222918) + (1.166052*L^2)/(L^2 - 80.93796) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.060, 0.280, 0.580, 0.780, 0.820, 0.880, 0.920, 0.940, 0.953, 0.970, 0.978, 0.986, 0.994, 0.996, 0.995, 0.994, 0.995, 0.996, 0.995, 0.975, 0.850, 0.390, 0.100 ]

Brewsters angle(in), 60.3105 deg 
Brewsters angle(out), 29.6895 deg 
Critical angle, 34.7606 deg


OpticsPars_91 OpticsPars_92

Glass: N-LAK33B 
-------------------------------
Glass code: 755523.422 
Refractive index, Nd = 1.7550
Abbe number, Vd = 52.3000

Constants of Dispersion dn/dT
D0 = 2.77e-006
D1 = 1.24e-008
D2 = 1.22e-011
E0 = 5.19e-007
E1 = 6.02e-010
L_TK = 1.84e-001 µm

Thermal Expansion
CTE = 5.83e-006 1/K, -30°C to +70°C
CTE = 7.06e-006 1/K, +20°C to +300°C 

Density, ro =   4.22 g/cm^3
dPgF = -8.50e-003 

Dispersion formula
n^2 - 1 = (1.422886*L^2)/(L^2 - 0.006702835) + (0.5936613*L^2)/(L^2 - 0.02194162) + (1.161353*L^2)/(L^2 - 80.74077) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.010, 0.030, 0.140, 0.350, 0.610, 0.790, 0.830, 0.890, 0.930, 0.950, 0.956, 0.971, 0.979, 0.986, 0.993, 0.995, 0.994, 0.993, 0.994, 0.995, 0.995, 0.963, 0.850, 0.380, 0.100 ]

Brewsters angle(in), 60.3255 deg 
Brewsters angle(out), 29.6745 deg 
Critical angle, 34.7363 deg


OpticsPars_93 OpticsPars_94

Glass: N-LAK34 
-------------------------------
Glass code: 729545.402 
Refractive index, Nd = 1.7292
Abbe number, Vd = 54.5000

Constants of Dispersion dn/dT
D0 = 1.96e-006
D1 = 9.65e-009
D2 = 4.40e-012
E0 = 4.91e-007
E1 = 5.28e-010
L_TK = 1.61e-001 µm

Thermal Expansion
CTE = 5.81e-006 1/K, -30°C to +70°C
CTE = 6.91e-006 1/K, +20°C to +300°C 

Density, ro =   4.02 g/cm^3
dPgF = -7.90e-003 

Dispersion formula
n^2 - 1 = (1.266614*L^2)/(L^2 - 0.005892781) + (0.6659193*L^2)/(L^2 - 0.0197509) + (1.124961*L^2)/(L^2 - 78.88942) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 290.0, 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.010, 0.030, 0.070, 0.200, 0.430, 0.670, 0.820, 0.860, 0.910, 0.940, 0.952, 0.959, 0.972, 0.979, 0.987, 0.994, 0.997, 0.995, 0.996, 0.997, 0.997, 0.995, 0.960, 0.850, 0.370, 0.100 ]

Brewsters angle(in), 59.9585 deg 
Brewsters angle(out), 30.0415 deg 
Critical angle, 35.3321 deg


OpticsPars_95 OpticsPars_96

Glass: N-LAK7 
-------------------------------
Glass code: 652585.384 
Refractive index, Nd = 1.6516
Abbe number, Vd = 58.5200

Constants of Dispersion dn/dT
D0 = -3.40e-006
D1 = 1.17e-008
D2 = 2.38e-011
E0 = 4.96e-007
E1 = 4.44e-010
L_TK = 1.07e-001 µm

Thermal Expansion
CTE = 7.10e-006 1/K, -30°C to +70°C
CTE = 8.20e-006 1/K, +20°C to +300°C 

Density, ro =   3.84 g/cm^3
dPgF = -2.10e-003 

Dispersion formula
n^2 - 1 = (1.236799*L^2)/(L^2 - 0.006101055) + (1.017459*L^2)/(L^2 - 90.63804) + (0.4450518*L^2)/(L^2 - 0.02013883) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 290.0, 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[   NaN, 0.016, 0.111, 0.301, 0.570, 0.785, 0.894, 0.917, 0.945, 0.961, 0.970, 0.973, 0.977, 0.980, 0.984, 0.992, 0.995, 0.995, 0.995, 0.996, 0.997, 0.998, 0.972, 0.863, 0.494, 0.224 ]

Brewsters angle(in), 58.8062 deg 
Brewsters angle(out), 31.1938 deg 
Critical angle, 37.2629 deg


OpticsPars_97 OpticsPars_98

Glass: N-LAK8 
-------------------------------
Glass code: 713538.375 
Refractive index, Nd = 1.7130
Abbe number, Vd = 53.8300

Constants of Dispersion dn/dT
D0 = 4.10e-006
D1 = 1.25e-008
D2 = -1.60e-011
E0 = 4.30e-007
E1 = 6.29e-010
L_TK = 2.13e-001 µm

Thermal Expansion
CTE = 5.60e-006 1/K, -30°C to +70°C
CTE = 6.70e-006 1/K, +20°C to +300°C 

Density, ro =   3.75 g/cm^3
dPgF = -8.30e-003 

Dispersion formula
n^2 - 1 = (1.331832*L^2)/(L^2 - 0.006200239) + (0.5466232*L^2)/(L^2 - 0.02164654) + (1.19084*L^2)/(L^2 - 82.58277) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.010, 0.040, 0.185, 0.470, 0.720, 0.780, 0.870, 0.915, 0.943, 0.952, 0.970, 0.979, 0.987, 0.994, 0.995, 0.994, 0.994, 0.995, 0.996, 0.994, 0.979, 0.880, 0.420, 0.100 ]

Brewsters angle(in), 59.7248 deg 
Brewsters angle(out), 30.2752 deg 
Critical angle, 35.7162 deg


OpticsPars_99 OpticsPars_100

Glass: N-LASF41 
-------------------------------
Glass code: 835431.485 
Refractive index, Nd = 1.8350
Abbe number, Vd = 43.1300

Constants of Dispersion dn/dT
D0 = 3.03e-006
D1 = 1.04e-008
D2 = -1.30e-011
E0 = 6.62e-007
E1 = 7.82e-010
L_TK = 2.09e-001 µm

Thermal Expansion
CTE = 6.19e-006 1/K, -30°C to +70°C
CTE = 7.33e-006 1/K, +20°C to +300°C 

Density, ro =   4.84 g/cm^3
dPgF = -8.30e-003 

Dispersion formula
n^2 - 1 = (1.357848*L^2)/(L^2 - 93.35806) + (1.863483*L^2)/(L^2 - 0.009103682) + (0.4133073*L^2)/(L^2 - 0.03392473) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.040, 0.270, 0.550, 0.630, 0.750, 0.830, 0.876, 0.890, 0.920, 0.940, 0.962, 0.984, 0.993, 0.994, 0.993, 0.994, 0.995, 0.995, 0.983, 0.880, 0.510, 0.160 ]

Brewsters angle(in), 61.4116 deg 
Brewsters angle(out), 28.5884 deg 
Critical angle, 33.0217 deg


OpticsPars_101 OpticsPars_102

Glass: N-LASF43 
-------------------------------
Glass code: 806406.426 
Refractive index, Nd = 1.8061
Abbe number, Vd = 40.6100

Constants of Dispersion dn/dT
D0 = 4.77e-006
D1 = 1.14e-008
D2 = -2.68e-012
E0 = 6.62e-007
E1 = 8.84e-010
L_TK = 2.34e-001 µm

Thermal Expansion
CTE = 5.49e-006 1/K, -30°C to +70°C
CTE = 6.66e-006 1/K, +20°C to +300°C 

Density, ro =   4.26 g/cm^3
dPgF = -5.20e-003 

Dispersion formula
n^2 - 1 = (0.2366293*L^2)/(L^2 - 0.04475053) + (1.262913*L^2)/(L^2 - 87.43757) + (1.935028*L^2)/(L^2 - 0.01040014) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.020, 0.300, 0.420, 0.610, 0.730, 0.810, 0.840, 0.890, 0.920, 0.950, 0.975, 0.988, 0.991, 0.993, 0.995, 0.995, 0.994, 0.960, 0.850, 0.430, 0.100 ]

Brewsters angle(in), 61.0276 deg 
Brewsters angle(out), 28.9724 deg 
Critical angle, 33.6198 deg


OpticsPars_103 OpticsPars_104

Glass: N-LASF44 
-------------------------------
Glass code: 804465.444 
Refractive index, Nd = 1.8042
Abbe number, Vd = 46.5000

Constants of Dispersion dn/dT
D0 = 3.32e-006
D1 = 1.12e-008
D2 = -8.52e-012
E0 = 5.88e-007
E1 = 7.13e-010
L_TK = 2.09e-001 µm

Thermal Expansion
CTE = 6.21e-006 1/K, -30°C to +70°C
CTE = 7.39e-006 1/K, +20°C to +300°C 

Density, ro =   4.44 g/cm^3
dPgF = -8.40e-003 

Dispersion formula
n^2 - 1 = (1.305062*L^2)/(L^2 - 92.77438) + (1.788971*L^2)/(L^2 - 0.008725063) + (0.3867587*L^2)/(L^2 - 0.0308085) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.088, 0.351, 0.615, 0.685, 0.793, 0.870, 0.910, 0.920, 0.950, 0.965, 0.977, 0.989, 0.995, 0.995, 0.995, 0.995, 0.996, 0.995, 0.975, 0.870, 0.470, 0.150 ]

Brewsters angle(in), 61.0021 deg 
Brewsters angle(out), 28.9979 deg 
Critical angle, 33.6599 deg


OpticsPars_105 OpticsPars_106
Glass: N-LASF45 
-------------------------------
Glass code: 801350.363 
Refractive index, Nd = 1.8011
Abbe number, Vd = 34.9700

Constants of Dispersion dn/dT
D0 = 2.78e-006
D1 = 8.73e-009
D2 = -2.65e-011
E0 = 8.24e-007
E1 = 1.15e-009
L_TK = 2.55e-001 µm

Thermal Expansion
CTE = 7.36e-006 1/K, -30°C to +70°C
CTE = 8.56e-006 1/K, +20°C to +300°C 

Density, ro =   3.63 g/cm^3
dPgF = 9.00e-004 

Dispersion formula
n^2 - 1 = (0.2677779*L^2)/(L^2 - 0.0505135) + (1.871402*L^2)/(L^2 - 0.01121719) + (1.7303*L^2)/(L^2 - 147.1065) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.060, 0.150, 0.370, 0.550, 0.680, 0.720, 0.820, 0.870, 0.915, 0.958, 0.982, 0.986, 0.984, 0.987, 0.990, 0.997, 0.988, 0.932, 0.724, 0.581 ]

Brewsters angle(in), 60.9598 deg 
Brewsters angle(out), 29.0402 deg 
Critical angle, 33.7262 deg


OpticsPars_107 OpticsPars_108

Glass: N-LASF45HT 
-------------------------------
Glass code: 801350.363 
Refractive index, Nd = 1.8011
Abbe number, Vd = 34.9700

Constants of Dispersion dn/dT
D0 = 2.78e-006
D1 = 8.73e-009
D2 = -2.65e-011
E0 = 8.24e-007
E1 = 1.15e-009
L_TK = 2.55e-001 µm

Thermal Expansion
CTE = 7.36e-006 1/K, -30°C to +70°C
CTE = 8.56e-006 1/K, +20°C to +300°C 

Density, ro =   3.63 g/cm^3
dPgF = 9.00e-004 

Dispersion formula
n^2 - 1 = (0.2677779*L^2)/(L^2 - 0.0505135) + (1.871402*L^2)/(L^2 - 0.01121719) + (1.7303*L^2)/(L^2 - 147.1065) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.098, 0.203, 0.439, 0.619, 0.739, 0.781, 0.858, 0.898, 0.931, 0.964, 0.983, 0.986, 0.986, 0.987, 0.990, 0.997, 0.988, 0.932, 0.724, 0.581 ]

Brewsters angle(in), 60.9598 deg 
Brewsters angle(out), 29.0402 deg 
Critical angle, 33.7262 deg


OpticsPars_109 OpticsPars_110

Glass: N-LASF46A 
-------------------------------
Glass code: 904313.445 
Refractive index, Nd = 1.9037
Abbe number, Vd = 31.3200

Constants of Dispersion dn/dT
D0 = 3.53e-006
D1 = 1.24e-008
D2 = -1.87e-011
E0 = 8.39e-007
E1 = 1.04e-009
L_TK = 2.75e-001 µm

Thermal Expansion
CTE = 6.00e-006 1/K, -30°C to +70°C
CTE = 7.15e-006 1/K, +20°C to +300°C 

Density, ro =   4.45 g/cm^3
dPgF = 4.20e-003 

Dispersion formula
n^2 - 1 = (0.3198128*L^2)/(L^2 - 0.05606103) + (1.660045*L^2)/(L^2 - 107.0477) + (2.167016*L^2)/(L^2 - 0.01235955) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.014, 0.180, 0.420, 0.600, 0.660, 0.780, 0.850, 0.900, 0.950, 0.978, 0.982, 0.983, 0.985, 0.989, 0.997, 0.977, 0.890, 0.560, 0.230 ]

Brewsters angle(in), 62.2869 deg 
Brewsters angle(out), 27.7131 deg 
Critical angle, 31.6887 deg


OpticsPars_111 OpticsPars_112

Glass: N-LASF46B 
-------------------------------
Glass code: 904313.451 
Refractive index, Nd = 1.9037
Abbe number, Vd = 31.3200

Constants of Dispersion dn/dT
D0 = 5.98e-006
D1 = 1.30e-008
D2 = -3.50e-012
E0 = 9.13e-007
E1 = 1.24e-009
L_TK = 2.67e-001 µm

Thermal Expansion
CTE = 5.97e-006 1/K, -30°C to +70°C
CTE = 7.11e-006 1/K, +20°C to +300°C 

Density, ro =   4.51 g/cm^3
dPgF = 4.50e-003 

Dispersion formula
n^2 - 1 = (0.3064952*L^2)/(L^2 - 0.05671914) + (1.568824*L^2)/(L^2 - 105.3165) + (2.179889*L^2)/(L^2 - 0.01258054) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.000, 0.021, 0.230, 0.490, 0.660, 0.710, 0.820, 0.870, 0.910, 0.952, 0.974, 0.982, 0.987, 0.990, 0.992, 0.996, 0.977, 0.890, 0.550, 0.230 ]

Brewsters angle(in), 62.2869 deg 
Brewsters angle(out), 27.7131 deg 
Critical angle, 31.6887 deg


OpticsPars_113 OpticsPars_114

Glass: N-LASF9 
-------------------------------
Glass code: 850322.441 
Refractive index, Nd = 1.8503
Abbe number, Vd = 32.1700

Constants of Dispersion dn/dT
D0 = 1.05e-006
D1 = 1.02e-008
D2 = -2.38e-011
E0 = 9.19e-007
E1 = 1.18e-009
L_TK = 2.57e-001 µm

Thermal Expansion
CTE = 7.37e-006 1/K, -30°C to +70°C
CTE = 8.38e-006 1/K, +20°C to +300°C 

Density, ro =   4.41 g/cm^3
dPgF = 3.70e-003 

Dispersion formula
n^2 - 1 = (0.2989269*L^2)/(L^2 - 0.05387362) + (2.000295*L^2)/(L^2 - 0.0121426) + (1.806918*L^2)/(L^2 - 156.5308) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[   NaN, 0.040, 0.200, 0.400, 0.570, 0.630, 0.770, 0.840, 0.898, 0.945, 0.972, 0.978, 0.979, 0.981, 0.986, 0.994, 0.986, 0.919, 0.712, 0.598 ]

Brewsters angle(in), 61.6102 deg 
Brewsters angle(out), 28.3898 deg 
Critical angle, 32.7155 deg


OpticsPars_115 OpticsPars_116
Glass: N-PK52A 
-------------------------------
Glass code: 497816.37 
Refractive index, Nd = 1.4970
Abbe number, Vd = 81.6100

Constants of Dispersion dn/dT
D0 = -1.97e-005
D1 = -5.50e-009
D2 = 5.28e-012
E0 = 3.60e-007
E1 = 2.45e-010
L_TK = 1.72e-001 µm

Thermal Expansion
CTE = 1.30e-005 1/K, -30°C to +70°C
CTE = 1.50e-005 1/K, +20°C to +300°C 

Density, ro =   3.70 g/cm^3
dPgF = 3.11e-002 

Dispersion formula
n^2 - 1 = (1.029607*L^2)/(L^2 - 0.005168002) + (0.7364882*L^2)/(L^2 - 138.9641) + (0.1880506*L^2)/(L^2 - 0.01666588) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 290.0, 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.010, 0.040, 0.120, 0.300, 0.630, 0.880, 0.970, 0.980, 0.989, 0.992, 0.992, 0.992, 0.990, 0.990, 0.992, 0.996, 0.997, 0.997, 0.995, 0.993, 0.993, 0.994, 0.994, 0.990, 0.978, 0.967 ]

Brewsters angle(in), 56.2570 deg 
Brewsters angle(out), 33.7430 deg 
Critical angle, 41.9131 deg


OpticsPars_117 OpticsPars_118
Glass: N-PSK3 
-------------------------------
Glass code: 552635.291 
Refractive index, Nd = 1.5523
Abbe number, Vd = 63.4600

Constants of Dispersion dn/dT
D0 = 2.03e-006
D1 = 1.19e-008
D2 = 2.46e-011
E0 = 3.14e-007
E1 = 2.45e-010
L_TK = 2.35e-001 µm

Thermal Expansion
CTE = 6.20e-006 1/K, -30°C to +70°C
CTE = 7.30e-006 1/K, +20°C to +300°C 

Density, ro =   2.91 g/cm^3
dPgF = -5.00e-004 

Dispersion formula
n^2 - 1 = (1.048653*L^2)/(L^2 - 104.375) + (0.8872721*L^2)/(L^2 - 0.004698241) + (0.4895924*L^2)/(L^2 - 0.01618185) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.060, 0.260, 0.520, 0.800, 0.920, 0.964, 0.971, 0.977, 0.983, 0.986, 0.987, 0.986, 0.986, 0.987, 0.990, 0.993, 0.993, 0.992, 0.993, 0.995, 0.997, 0.978, 0.877, 0.588, 0.338 ]

Brewsters angle(in), 57.2105 deg 
Brewsters angle(out), 32.7895 deg 
Critical angle, 40.1055 deg


OpticsPars_119 OpticsPars_120
Glass: N-PSK53A 
-------------------------------
Glass code: 618634.357 
Refractive index, Nd = 1.6180
Abbe number, Vd = 63.3900

Constants of Dispersion dn/dT
D0 = -9.28e-006
D1 = 7.19e-009
D2 = 1.45e-012
E0 = 4.06e-007
E1 = 3.17e-010
L_TK = 1.90e-001 µm

Thermal Expansion
CTE = 9.56e-006 1/K, -30°C to +70°C
CTE = 1.08e-005 1/K, +20°C to +300°C 

Density, ro =   3.57 g/cm^3
dPgF = 5.20e-003 

Dispersion formula
n^2 - 1 = (1.381218*L^2)/(L^2 - 0.007064163) + (0.8860892*L^2)/(L^2 - 97.48473) + (0.1967456*L^2)/(L^2 - 0.02332513) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.030, 0.200, 0.530, 0.780, 0.830, 0.900, 0.940, 0.964, 0.970, 0.979, 0.982, 0.986, 0.992, 0.995, 0.994, 0.992, 0.993, 0.994, 0.994, 0.956, 0.800, 0.510, 0.290 ]

Brewsters angle(in), 58.2820 deg 
Brewsters angle(out), 31.7180 deg 
Critical angle, 38.1737 deg


OpticsPars_121 OpticsPars_122

Glass: N-SF1 
-------------------------------
Glass code: 717296.303 
Refractive index, Nd = 1.7174
Abbe number, Vd = 29.6200

Constants of Dispersion dn/dT
D0 = -3.72e-006
D1 = 8.05e-009
D2 = -1.71e-011
E0 = 8.98e-007
E1 = 1.34e-009
L_TK = 2.76e-001 µm

Thermal Expansion
CTE = 9.13e-006 1/K, -30°C to +70°C
CTE = 1.05e-005 1/K, +20°C to +300°C 

Density, ro =   3.02 g/cm^3
dPgF = 9.70e-003 

Dispersion formula
n^2 - 1 = (1.608652*L^2)/(L^2 - 0.01196549) + (1.515307*L^2)/(L^2 - 135.5217) + (0.2377259*L^2)/(L^2 - 0.05905897) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.030, 0.250, 0.520, 0.700, 0.760, 0.870, 0.910, 0.940, 0.968, 0.986, 0.990, 0.987, 0.986, 0.990, 0.995, 0.973, 0.850, 0.580, 0.460 ]

Brewsters angle(in), 59.7882 deg 
Brewsters angle(out), 30.2118 deg 
Critical angle, 35.6117 deg


OpticsPars_123 OpticsPars_124

Glass: N-SF10 
-------------------------------
Glass code: 728285.305 
Refractive index, Nd = 1.7283
Abbe number, Vd = 28.5300

Constants of Dispersion dn/dT
D0 = -4.68e-006
D1 = 7.41e-009
D2 = -1.89e-011
E0 = 9.49e-007
E1 = 1.42e-009
L_TK = 2.79e-001 µm

Thermal Expansion
CTE = 9.40e-006 1/K, -30°C to +70°C
CTE = 1.08e-005 1/K, +20°C to +300°C 

Density, ro =   3.05 g/cm^3
dPgF = 1.08e-002 

Dispersion formula
n^2 - 1 = (1.621539*L^2)/(L^2 - 0.01222415) + (1.644476*L^2)/(L^2 - 147.4688) + (0.2562878*L^2)/(L^2 - 0.05957368) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.200, 0.450, 0.640, 0.700, 0.820, 0.870, 0.910, 0.945, 0.973, 0.978, 0.977, 0.976, 0.983, 0.990, 0.985, 0.930, 0.760, 0.660 ]

Brewsters angle(in), 59.9459 deg 
Brewsters angle(out), 30.0541 deg 
Critical angle, 35.3528 deg


OpticsPars_125 OpticsPars_126

Glass: N-SF11 
-------------------------------
Glass code: 785257.322 
Refractive index, Nd = 1.7847
Abbe number, Vd = 25.6800

Constants of Dispersion dn/dT
D0 = -3.56e-006
D1 = 9.20e-009
D2 = -2.10e-011
E0 = 9.65e-007
E1 = 1.44e-009
L_TK = 2.94e-001 µm

Thermal Expansion
CTE = 8.52e-006 1/K, -30°C to +70°C
CTE = 9.85e-006 1/K, +20°C to +300°C 

Density, ro =   3.22 g/cm^3
dPgF = 1.50e-002 

Dispersion formula
n^2 - 1 = (1.737597*L^2)/(L^2 - 0.01318871) + (1.898781*L^2)/(L^2 - 155.2363) + (0.3137473*L^2)/(L^2 - 0.06230681) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.002, 0.120, 0.390, 0.600, 0.670, 0.810, 0.870, 0.920, 0.953, 0.978, 0.984, 0.981, 0.981, 0.985, 0.998, 0.985, 0.915, 0.700, 0.620 ]

Brewsters angle(in), 60.7376 deg 
Brewsters angle(out), 29.2624 deg 
Critical angle, 34.0774 deg


OpticsPars_127 OpticsPars_128

Glass: N-SF14 
-------------------------------
Glass code: 762265.312 
Refractive index, Nd = 1.7618
Abbe number, Vd = 26.5300

Constants of Dispersion dn/dT
D0 = -5.56e-006
D1 = 7.09e-009
D2 = -1.09e-011
E0 = 9.85e-007
E1 = 1.39e-009
L_TK = 2.87e-001 µm

Thermal Expansion
CTE = 9.41e-006 1/K, -30°C to +70°C
CTE = 1.09e-005 1/K, +20°C to +300°C 

Density, ro =   3.12 g/cm^3
dPgF = 1.30e-002 

Dispersion formula
n^2 - 1 = (1.690224*L^2)/(L^2 - 0.01305121) + (1.704519*L^2)/(L^2 - 149.5177) + (0.2888701*L^2)/(L^2 - 0.06136919) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.004, 0.040, 0.330, 0.610, 0.750, 0.790, 0.870, 0.910, 0.930, 0.960, 0.981, 0.984, 0.980, 0.978, 0.985, 0.998, 0.980, 0.880, 0.640, 0.570 ]

Brewsters angle(in), 60.4210 deg 
Brewsters angle(out), 29.5790 deg 
Critical angle, 34.5827 deg


OpticsPars_129 OpticsPars_130

Glass: N-SF15 
-------------------------------
Glass code: 699302.292 
Refractive index, Nd = 1.6989
Abbe number, Vd = 30.2000

Constants of Dispersion dn/dT
D0 = -7.15e-007
D1 = 1.04e-008
D2 = -2.62e-011
E0 = 8.56e-007
E1 = 1.29e-009
L_TK = 2.81e-001 µm

Thermal Expansion
CTE = 8.04e-006 1/K, -30°C to +70°C
CTE = 9.28e-006 1/K, +20°C to +300°C 

Density, ro =   2.92 g/cm^3
dPgF = 1.08e-002 

Dispersion formula
n^2 - 1 = (1.570556*L^2)/(L^2 - 0.0116507) + (1.50824*L^2)/(L^2 - 132.7093) + (0.2189871*L^2)/(L^2 - 0.05978569) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.010, 0.200, 0.480, 0.680, 0.740, 0.860, 0.912, 0.943, 0.970, 0.985, 0.986, 0.984, 0.983, 0.988, 0.996, 0.976, 0.890, 0.640, 0.510 ]

Brewsters angle(in), 59.5185 deg 
Brewsters angle(out), 30.4815 deg 
Critical angle, 36.0584 deg


OpticsPars_131 OpticsPars_132

Glass: N-SF2 
-------------------------------
Glass code: 648338.272 
Refractive index, Nd = 1.6477
Abbe number, Vd = 33.8200

Constants of Dispersion dn/dT
D0 = 1.55e-006
D1 = -6.39e-009
D2 = 3.05e-010
E0 = 7.31e-007
E1 = 1.53e-009
L_TK = 2.73e-001 µm

Thermal Expansion
CTE = 6.68e-006 1/K, -30°C to +70°C
CTE = 7.81e-006 1/K, +20°C to +300°C 

Density, ro =   2.72 g/cm^3
dPgF = 8.10e-003 

Dispersion formula
n^2 - 1 = (1.473431*L^2)/(L^2 - 0.01090191) + (1.369209*L^2)/(L^2 - 127.4049) + (0.1636818*L^2)/(L^2 - 0.05856837) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.007, 0.060, 0.400, 0.680, 0.830, 0.865, 0.926, 0.949, 0.961, 0.975, 0.986, 0.987, 0.984, 0.984, 0.987, 0.997, 0.984, 0.930, 0.760, 0.670 ]

Brewsters angle(in), 58.7460 deg 
Brewsters angle(out), 31.2540 deg 
Critical angle, 37.3664 deg


OpticsPars_133 OpticsPars_134

Glass: N-SF4 
-------------------------------
Glass code: 755274.315 
Refractive index, Nd = 1.7551
Abbe number, Vd = 27.3800

Constants of Dispersion dn/dT
D0 = -4.88e-006
D1 = 6.57e-009
D2 = -2.72e-011
E0 = 9.67e-007
E1 = 1.48e-009
L_TK = 2.82e-001 µm

Thermal Expansion
CTE = 9.45e-006 1/K, -30°C to +70°C
CTE = 1.09e-005 1/K, +20°C to +300°C 

Density, ro =   3.15 g/cm^3
dPgF = 1.18e-002 

Dispersion formula
n^2 - 1 = (1.677803*L^2)/(L^2 - 0.01267935) + (1.635393*L^2)/(L^2 - 145.7605) + (0.2828499*L^2)/(L^2 - 0.06020384) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.003, 0.031, 0.238, 0.471, 0.628, 0.687, 0.802, 0.861, 0.906, 0.948, 0.977, 0.982, 0.979, 0.978, 0.984, 0.999, 0.980, 0.863, 0.602, 0.530 ]

Brewsters angle(in), 60.3273 deg 
Brewsters angle(out), 29.6727 deg 
Critical angle, 34.7334 deg


OpticsPars_135 OpticsPars_136

Glass: N-SF5 
-------------------------------
Glass code: 673323.286 
Refractive index, Nd = 1.6727
Abbe number, Vd = 32.2500

Constants of Dispersion dn/dT
D0 = -2.51e-007
D1 = 1.07e-008
D2 = -2.40e-011
E0 = 7.85e-007
E1 = 1.15e-009
L_TK = 2.78e-001 µm

Thermal Expansion
CTE = 7.94e-006 1/K, -30°C to +70°C
CTE = 9.21e-006 1/K, +20°C to +300°C 

Density, ro =   2.86 g/cm^3
dPgF = 8.80e-003 

Dispersion formula
n^2 - 1 = (1.524819*L^2)/(L^2 - 0.01125476) + (1.42729*L^2)/(L^2 - 129.1417) + (0.1870855*L^2)/(L^2 - 0.05889954) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.040, 0.330, 0.620, 0.780, 0.830, 0.910, 0.935, 0.956, 0.976, 0.988, 0.991, 0.988, 0.987, 0.989, 0.994, 0.975, 0.880, 0.630, 0.500 ]

Brewsters angle(in), 59.1277 deg 
Brewsters angle(out), 30.8723 deg 
Critical angle, 36.7148 deg


OpticsPars_137 OpticsPars_138

Glass: N-SF57 
-------------------------------
Glass code: 847238.353 
Refractive index, Nd = 1.8467
Abbe number, Vd = 23.7800

Constants of Dispersion dn/dT
D0 = -4.51e-006
D1 = 8.73e-009
D2 = -1.64e-011
E0 = 1.07e-006
E1 = 1.57e-009
L_TK = 2.95e-001 µm

Thermal Expansion
CTE = 8.46e-006 1/K, -30°C to +70°C
CTE = 9.88e-006 1/K, +20°C to +300°C 

Density, ro =   3.53 g/cm^3
dPgF = 1.78e-002 

Dispersion formula
n^2 - 1 = (1.875438*L^2)/(L^2 - 0.01417495) + (2.300018*L^2)/(L^2 - 177.3898) + (0.3737575*L^2)/(L^2 - 0.06405099) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.001, 0.050, 0.250, 0.460, 0.540, 0.710, 0.810, 0.877, 0.930, 0.965, 0.975, 0.971, 0.969, 0.977, 0.997, 0.980, 0.893, 0.642, 0.584 ]

Brewsters angle(in), 61.5636 deg 
Brewsters angle(out), 28.4364 deg 
Critical angle, 32.7870 deg


OpticsPars_139 OpticsPars_140

Glass: N-SF57HT 
-------------------------------
Glass code: 847238.353 
Refractive index, Nd = 1.8467
Abbe number, Vd = 23.7800

Constants of Dispersion dn/dT
D0 = -4.51e-006
D1 = 8.73e-009
D2 = -1.64e-011
E0 = 1.07e-006
E1 = 1.57e-009
L_TK = 2.95e-001 µm

Thermal Expansion
CTE = 8.46e-006 1/K, -30°C to +70°C
CTE = 9.88e-006 1/K, +20°C to +300°C 

Density, ro =   3.53 g/cm^3
dPgF = 1.78e-002 

Dispersion formula
n^2 - 1 = (1.875438*L^2)/(L^2 - 0.01417495) + (2.300018*L^2)/(L^2 - 177.3898) + (0.3737575*L^2)/(L^2 - 0.06405099) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.001, 0.090, 0.350, 0.560, 0.630, 0.760, 0.830, 0.883, 0.932, 0.967, 0.977, 0.973, 0.971, 0.979, 0.998, 0.980, 0.893, 0.642, 0.584 ]

Brewsters angle(in), 61.5636 deg 
Brewsters angle(out), 28.4364 deg 
Critical angle, 32.7870 deg


OpticsPars_141 OpticsPars_142

Glass: N-SF57HTultra 
-------------------------------
Glass code: 847238.353 
Refractive index, Nd = 1.8467
Abbe number, Vd = 23.7800

Constants of Dispersion dn/dT
D0 = -4.51e-006
D1 = 8.73e-009
D2 = -1.64e-011
E0 = 1.07e-006
E1 = 1.57e-009
L_TK = 2.95e-001 µm

Thermal Expansion
CTE = 8.46e-006 1/K, -30°C to +70°C
CTE = 9.88e-006 1/K, +20°C to +300°C 

Density, ro =   3.53 g/cm^3
dPgF = 1.78e-002 

Dispersion formula
n^2 - 1 = (1.875438*L^2)/(L^2 - 0.01417495) + (2.300018*L^2)/(L^2 - 177.3898) + (0.3737575*L^2)/(L^2 - 0.06405099) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.001, 0.114, 0.413, 0.627, 0.693, 0.805, 0.864, 0.908, 0.947, 0.973, 0.981, 0.983, 0.985, 0.988, 0.998, 0.980, 0.893, 0.642, 0.584 ]

Brewsters angle(in), 61.5636 deg 
Brewsters angle(out), 28.4364 deg 
Critical angle, 32.7870 deg


OpticsPars_143 OpticsPars_144

Glass: N-SF6 
-------------------------------
Glass code: 805254.337 
Refractive index, Nd = 1.8052
Abbe number, Vd = 25.3600

Constants of Dispersion dn/dT
D0 = -4.93e-006
D1 = 7.02e-009
D2 = -2.40e-011
E0 = 9.84e-007
E1 = 1.54e-009
L_TK = 2.90e-001 µm

Thermal Expansion
CTE = 9.03e-006 1/K, -30°C to +70°C
CTE = 1.03e-005 1/K, +20°C to +300°C 

Density, ro =   3.37 g/cm^3
dPgF = 1.46e-002 

Dispersion formula
n^2 - 1 = (1.779318*L^2)/(L^2 - 0.01337142) + (2.087345*L^2)/(L^2 - 174.0176) + (0.3381499*L^2)/(L^2 - 0.06175336) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.010, 0.160, 0.410, 0.610, 0.680, 0.810, 0.870, 0.905, 0.943, 0.972, 0.980, 0.978, 0.976, 0.983, 0.996, 0.978, 0.860, 0.590, 0.530 ]

Brewsters angle(in), 61.0152 deg 
Brewsters angle(out), 28.9848 deg 
Critical angle, 33.6392 deg


 OpticsPars_145 OpticsPars_146
Glass: N-SF66 
-------------------------------
Glass code: 923209.4 
Refractive index, Nd = 1.9229
Abbe number, Vd = 20.8800

Constants of Dispersion dn/dT
D0 = -4.30e-006
D1 = 1.15e-008
D2 = 4.31e-011
E0 = 9.62e-007
E1 = 1.62e-009
L_TK = 3.22e-001 µm

Thermal Expansion
CTE = 5.90e-006 1/K, -30°C to +70°C
CTE = 6.83e-006 1/K, +20°C to +300°C 

Density, ro =   4.00 g/cm^3
dPgF = 3.07e-002 

Dispersion formula
n^2 - 1 = (2.599704*L^2)/(L^2 - 161.8176) + (0.4701872*L^2)/(L^2 - 0.06929983) + (2.024598*L^2)/(L^2 - 0.01470532) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.020, 0.180, 0.270, 0.500, 0.630, 0.740, 0.830, 0.910, 0.940, 0.958, 0.968, 0.977, 0.991, 0.973, 0.873, 0.640, 0.560 ]

Brewsters angle(in), 62.5229 deg 
Brewsters angle(out), 27.4771 deg 
Critical angle, 31.3362 deg


OpticsPars_147 OpticsPars_148

Glass: N-SF6HT 
-------------------------------
Glass code: 805254.337 
Refractive index, Nd = 1.8052
Abbe number, Vd = 25.3600

Constants of Dispersion dn/dT
D0 = -4.93e-006
D1 = 7.02e-009
D2 = -2.40e-011
E0 = 9.84e-007
E1 = 1.54e-009
L_TK = 2.90e-001 µm

Thermal Expansion
CTE = 9.03e-006 1/K, -30°C to +70°C
CTE = 1.03e-005 1/K, +20°C to +300°C 

Density, ro =   3.37 g/cm^3
dPgF = 1.46e-002 

Dispersion formula
n^2 - 1 = (1.779318*L^2)/(L^2 - 0.01337142) + (2.087345*L^2)/(L^2 - 174.0176) + (0.3381499*L^2)/(L^2 - 0.06175336) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.020, 0.270, 0.560, 0.720, 0.770, 0.850, 0.890, 0.917, 0.950, 0.975, 0.981, 0.979, 0.977, 0.984, 0.997, 0.980, 0.870, 0.620, 0.560 ]

Brewsters angle(in), 61.0152 deg 
Brewsters angle(out), 28.9848 deg 
Critical angle, 33.6392 deg


OpticsPars_149 OpticsPars_150

Glass: N-SF6HTultra 
-------------------------------
Glass code: 805254.337 
Refractive index, Nd = 1.8052
Abbe number, Vd = 25.3600

Constants of Dispersion dn/dT
D0 = -4.93e-006
D1 = 7.02e-009
D2 = -2.40e-011
E0 = 9.84e-007
E1 = 1.54e-009
L_TK = 2.90e-001 µm

Thermal Expansion
CTE = 9.03e-006 1/K, -30°C to +70°C
CTE = 1.03e-005 1/K, +20°C to +300°C 

Density, ro =   3.37 g/cm^3
dPgF = 1.46e-002 

Dispersion formula
n^2 - 1 = (1.779318*L^2)/(L^2 - 0.01337142) + (2.087345*L^2)/(L^2 - 174.0176) + (0.3381499*L^2)/(L^2 - 0.06175336) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.022, 0.283, 0.581, 0.742, 0.790, 0.869, 0.906, 0.932, 0.960, 0.981, 0.984, 0.980, 0.978, 0.984, 0.999, 0.981, 0.876, 0.620, 0.565 ]

Brewsters angle(in), 61.0152 deg 
Brewsters angle(out), 28.9848 deg 
Critical angle, 33.6392 deg


OpticsPars_151 OpticsPars_152

Glass: N-SF8 
-------------------------------
Glass code: 689313.29 
Refractive index, Nd = 1.6889
Abbe number, Vd = 31.3100

Constants of Dispersion dn/dT
D0 = -1.94e-006
D1 = 9.70e-009
D2 = -2.34e-011
E0 = 8.32e-007
E1 = 1.15e-009
L_TK = 2.76e-001 µm

Thermal Expansion
CTE = 8.56e-006 1/K, -30°C to +70°C
CTE = 9.92e-006 1/K, +20°C to +300°C 

Density, ro =   2.90 g/cm^3
dPgF = 8.70e-003 

Dispersion formula
n^2 - 1 = (1.550758*L^2)/(L^2 - 0.01143383) + (1.462055*L^2)/(L^2 - 133.2416) + (0.2098169*L^2)/(L^2 - 0.05827257) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.070, 0.370, 0.630, 0.770, 0.810, 0.880, 0.914, 0.940, 0.963, 0.983, 0.986, 0.983, 0.983, 0.987, 0.993, 0.970, 0.870, 0.600, 0.480 ]

Brewsters angle(in), 59.3708 deg 
Brewsters angle(out), 30.6292 deg 
Critical angle, 36.3053 deg


OpticsPars_153 OpticsPars_154

Glass: N-SK11 
-------------------------------
Glass code: 564608.308 
Refractive index, Nd = 1.5638
Abbe number, Vd = 60.8000

Constants of Dispersion dn/dT
D0 = 2.14e-006
D1 = 1.27e-008
D2 = -7.21e-011
E0 = 3.51e-007
E1 = 5.41e-010
L_TK = 2.38e-001 µm

Thermal Expansion
CTE = 6.50e-006 1/K, -30°C to +70°C
CTE = 7.60e-006 1/K, +20°C to +300°C 

Density, ro =   3.08 g/cm^3
dPgF = -4.00e-004 

Dispersion formula
n^2 - 1 = (1.179636*L^2)/(L^2 - 0.006802821) + (0.9357897*L^2)/(L^2 - 101.5132) + (0.2298173*L^2)/(L^2 - 0.02197372) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.020, 0.160, 0.410, 0.710, 0.880, 0.940, 0.950, 0.963, 0.970, 0.975, 0.980, 0.985, 0.988, 0.990, 0.994, 0.997, 0.996, 0.995, 0.995, 0.996, 0.995, 0.984, 0.920, 0.730, 0.540 ]

Brewsters angle(in), 57.4031 deg 
Brewsters angle(out), 32.5969 deg 
Critical angle, 39.7509 deg


OpticsPars_155 OpticsPars_156

Glass: N-SK14 
-------------------------------
Glass code: 603606.344 
Refractive index, Nd = 1.6031
Abbe number, Vd = 60.6000

Constants of Dispersion dn/dT
D0 = 1.58e-006
D1 = 1.22e-008
D2 = -8.04e-012
E0 = 4.46e-007
E1 = 5.22e-010
L_TK = 1.50e-001 µm

Thermal Expansion
CTE = 6.00e-006 1/K, -30°C to +70°C
CTE = 7.30e-006 1/K, +20°C to +300°C 

Density, ro =   3.44 g/cm^3
dPgF = -3.00e-004 

Dispersion formula
n^2 - 1 = (1.043746*L^2)/(L^2 - 103.7363) + (0.9361554*L^2)/(L^2 - 0.004617165) + (0.594052*L^2)/(L^2 - 0.01688593) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.070, 0.220, 0.520, 0.790, 0.910, 0.930, 0.952, 0.970, 0.975, 0.978, 0.983, 0.985, 0.988, 0.993, 0.995, 0.995, 0.995, 0.995, 0.995, 0.994, 0.980, 0.900, 0.630, 0.380 ]

Brewsters angle(in), 58.0446 deg 
Brewsters angle(out), 31.9554 deg 
Critical angle, 38.5932 deg


OpticsPars_157 OpticsPars_158

Glass: N-SK16 
-------------------------------
Glass code: 620603.358 
Refractive index, Nd = 1.6204
Abbe number, Vd = 60.3200

Constants of Dispersion dn/dT
D0 = -2.37e-008
D1 = 1.32e-008
D2 = -1.29e-011
E0 = 4.09e-007
E1 = 5.17e-010
L_TK = 1.70e-001 µm

Thermal Expansion
CTE = 6.30e-006 1/K, -30°C to +70°C
CTE = 7.30e-006 1/K, +20°C to +300°C 

Density, ro =   3.58 g/cm^3
dPgF = -1.10e-003 

Dispersion formula
n^2 - 1 = (1.343178*L^2)/(L^2 - 0.007046873) + (0.2411444*L^2)/(L^2 - 0.0229005) + (0.994318*L^2)/(L^2 - 92.75085) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.020, 0.110, 0.400, 0.700, 0.860, 0.890, 0.930, 0.956, 0.970, 0.974, 0.979, 0.981, 0.984, 0.991, 0.994, 0.994, 0.993, 0.994, 0.996, 0.995, 0.973, 0.880, 0.540, 0.260 ]

Brewsters angle(in), 58.3201 deg 
Brewsters angle(out), 31.6799 deg 
Critical angle, 38.1067 deg


OpticsPars_159 OpticsPars_160

Glass: N-SK2 
-------------------------------
Glass code: 607567.355 
Refractive index, Nd = 1.6074
Abbe number, Vd = 56.6500

Constants of Dispersion dn/dT
D0 = 3.80e-006
D1 = 1.41e-008
D2 = 2.28e-011
E0 = 6.44e-007
E1 = 8.03e-011
L_TK = 1.08e-001 µm

Thermal Expansion
CTE = 6.00e-006 1/K, -30°C to +70°C
CTE = 7.10e-006 1/K, +20°C to +300°C 

Density, ro =   3.55 g/cm^3
dPgF = -8.00e-004 

Dispersion formula
n^2 - 1 = (0.968186*L^2)/(L^2 - 110.3778) + (0.2577383*L^2)/(L^2 - 0.02428235) + (1.28189*L^2)/(L^2 - 0.007271916) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.040, 0.180, 0.490, 0.780, 0.920, 0.940, 0.970, 0.979, 0.984, 0.985, 0.984, 0.982, 0.983, 0.990, 0.995, 0.995, 0.994, 0.994, 0.995, 0.995, 0.988, 0.930, 0.760, 0.600 ]

Brewsters angle(in), 58.1130 deg 
Brewsters angle(out), 31.8870 deg 
Critical angle, 38.4719 deg


OpticsPars_161 OpticsPars_162

Glass: N-SK2HT 
-------------------------------
Glass code: 607567.355 
Refractive index, Nd = 1.6074
Abbe number, Vd = 56.6500

Constants of Dispersion dn/dT
D0 = 3.80e-006
D1 = 1.41e-008
D2 = 2.28e-011
E0 = 6.44e-007
E1 = 8.03e-011
L_TK = 1.08e-001 µm

Thermal Expansion
CTE = 6.00e-006 1/K, -30°C to +70°C
CTE = 7.10e-006 1/K, +20°C to +300°C 

Density, ro =   3.55 g/cm^3
dPgF = -8.00e-004 

Dispersion formula
n^2 - 1 = (0.968186*L^2)/(L^2 - 110.3778) + (0.2577383*L^2)/(L^2 - 0.02428235) + (1.28189*L^2)/(L^2 - 0.007271916) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.092, 0.346, 0.703, 0.892, 0.957, 0.968, 0.980, 0.986, 0.990, 0.991, 0.992, 0.991, 0.992, 0.995, 0.997, 0.997, 0.996, 0.996, 0.997, 0.996, 0.987, 0.930, 0.748, 0.585 ]

Brewsters angle(in), 58.1130 deg 
Brewsters angle(out), 31.8870 deg 
Critical angle, 38.4719 deg


OpticsPars_163 OpticsPars_164

Glass: N-SK4 
-------------------------------
Glass code: 613586.354 
Refractive index, Nd = 1.6127
Abbe number, Vd = 58.6300

Constants of Dispersion dn/dT
D0 = 7.96e-007
D1 = 1.30e-008
D2 = -1.31e-011
E0 = 4.36e-007
E1 = 6.01e-010
L_TK = 1.79e-001 µm

Thermal Expansion
CTE = 6.46e-006 1/K, -30°C to +70°C
CTE = 7.38e-006 1/K, +20°C to +300°C 

Density, ro =   3.54 g/cm^3
dPgF = -4.00e-004 

Dispersion formula
n^2 - 1 = (0.228543*L^2)/(L^2 - 0.02464559) + (0.9884652*L^2)/(L^2 - 100.8864) + (1.329937*L^2)/(L^2 - 0.007168741) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.200, 0.610, 0.830, 0.870, 0.930, 0.960, 0.975, 0.979, 0.983, 0.983, 0.985, 0.992, 0.995, 0.995, 0.995, 0.995, 0.996, 0.993, 0.977, 0.900, 0.620, 0.390 ]

Brewsters angle(in), 58.1982 deg 
Brewsters angle(out), 31.8018 deg 
Critical angle, 38.3213 deg


OpticsPars_165 OpticsPars_166

Glass: N-SK5 
-------------------------------
Glass code: 589613.33 
Refractive index, Nd = 1.5891
Abbe number, Vd = 61.2700

Constants of Dispersion dn/dT
D0 = 3.50e-006
D1 = 1.22e-008
D2 = 6.38e-011
E0 = 2.46e-007
E1 = -3.34e-011
L_TK = 2.78e-001 µm

Thermal Expansion
CTE = 5.50e-006 1/K, -30°C to +70°C
CTE = 6.50e-006 1/K, +20°C to +300°C 

Density, ro =   3.30 g/cm^3
dPgF = -7.00e-004 

Dispersion formula
n^2 - 1 = (0.9873939*L^2)/(L^2 - 98.35946) + (0.9914638*L^2)/(L^2 - 0.005227305) + (0.4959821*L^2)/(L^2 - 0.01727336) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.020, 0.100, 0.270, 0.580, 0.820, 0.930, 0.940, 0.960, 0.971, 0.981, 0.983, 0.986, 0.987, 0.989, 0.994, 0.996, 0.995, 0.993, 0.994, 0.995, 0.997, 0.980, 0.910, 0.640, 0.380 ]

Brewsters angle(in), 57.8188 deg 
Brewsters angle(out), 32.1812 deg 
Critical angle, 38.9967 deg


OpticsPars_167 OpticsPars_168

Glass: N-SSK2 
-------------------------------
Glass code: 622533.353 
Refractive index, Nd = 1.6223
Abbe number, Vd = 53.2700

Constants of Dispersion dn/dT
D0 = 5.21e-006
D1 = 1.34e-008
D2 = -1.01e-011
E0 = 5.21e-007
E1 = 5.87e-010
L_TK = 1.99e-001 µm

Thermal Expansion
CTE = 5.81e-006 1/K, -30°C to +70°C
CTE = 6.65e-006 1/K, +20°C to +300°C 

Density, ro =   3.52 g/cm^3
dPgF = -1.60e-003 

Dispersion formula
n^2 - 1 = (1.013909*L^2)/(L^2 - 106.8708) + (0.1531506*L^2)/(L^2 - 0.03337368) + (1.430603*L^2)/(L^2 - 0.00823983) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.250, 0.670, 0.750, 0.860, 0.920, 0.954, 0.963, 0.975, 0.980, 0.985, 0.992, 0.995, 0.995, 0.993, 0.994, 0.996, 0.992, 0.981, 0.930, 0.720, 0.500 ]

Brewsters angle(in), 58.3498 deg 
Brewsters angle(out), 31.6502 deg 
Critical angle, 38.0546 deg


OpticsPars_169 OpticsPars_170

Glass: N-SSK5 
-------------------------------
Glass code: 658509.371 
Refractive index, Nd = 1.6584
Abbe number, Vd = 50.8800

Constants of Dispersion dn/dT
D0 = 7.29e-007
D1 = 1.17e-008
D2 = -1.50e-011
E0 = 6.08e-007
E1 = 7.66e-010
L_TK = 1.89e-001 µm

Thermal Expansion
CTE = 6.80e-006 1/K, -30°C to +70°C
CTE = 8.00e-006 1/K, +20°C to +300°C 

Density, ro =   3.71 g/cm^3
dPgF = -7.00e-004 

Dispersion formula
n^2 - 1 = (1.05174*L^2)/(L^2 - 106.9274) + (0.1035208*L^2)/(L^2 - 0.04235301) + (1.592227*L^2)/(L^2 - 0.009202846) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.060, 0.450, 0.580, 0.760, 0.860, 0.900, 0.910, 0.940, 0.956, 0.968, 0.982, 0.990, 0.993, 0.992, 0.992, 0.993, 0.990, 0.980, 0.910, 0.660, 0.450 ]

Brewsters angle(in), 58.9110 deg 
Brewsters angle(out), 31.0890 deg 
Critical angle, 37.0834 deg


OpticsPars_171 OpticsPars_172

Glass: N-SSK8 
-------------------------------
Glass code: 618498.327 
Refractive index, Nd = 1.6177
Abbe number, Vd = 49.8300

Constants of Dispersion dn/dT
D0 = 5.34e-007
D1 = 1.27e-008
D2 = -1.75e-011
E0 = 5.40e-007
E1 = 7.05e-010
L_TK = 2.24e-001 µm

Thermal Expansion
CTE = 7.21e-006 1/K, -30°C to +70°C
CTE = 8.16e-006 1/K, +20°C to +300°C 

Density, ro =   3.27 g/cm^3
dPgF = 2.00e-004 

Dispersion formula
n^2 - 1 = (1.069375*L^2)/(L^2 - 111.3007) + (0.1179659*L^2)/(L^2 - 0.04215666) + (1.448579*L^2)/(L^2 - 0.008693101) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.010, 0.310, 0.450, 0.660, 0.810, 0.880, 0.900, 0.938, 0.955, 0.969, 0.984, 0.992, 0.992, 0.990, 0.991, 0.994, 0.993, 0.980, 0.900, 0.660, 0.460 ]

Brewsters angle(in), 58.2777 deg 
Brewsters angle(out), 31.7223 deg 
Critical angle, 38.1812 deg


OpticsPars_173 OpticsPars_174

Glass: N-ZK7 
-------------------------------
Glass code: 508612.249 
Refractive index, Nd = 1.5085
Abbe number, Vd = 61.1900

Constants of Dispersion dn/dT
D0 = 1.15e-005
D1 = 1.73e-008
D2 = -8.06e-011
E0 = 4.32e-007
E1 = 7.05e-010
L_TK = 1.79e-001 µm

Thermal Expansion
CTE = 4.50e-006 1/K, -30°C to +70°C
CTE = 5.20e-006 1/K, +20°C to +300°C 

Density, ro =   2.49 g/cm^3
dPgF = -3.90e-003 

Dispersion formula
n^2 - 1 = (1.07715*L^2)/(L^2 - 0.006766017) + (0.1680791*L^2)/(L^2 - 0.02306428) + (0.8518899*L^2)/(L^2 - 89.04988) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 300.0, 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.030, 0.170, 0.390, 0.670, 0.860, 0.930, 0.940, 0.956, 0.969, 0.975, 0.977, 0.981, 0.984, 0.988, 0.993, 0.995, 0.995, 0.994, 0.994, 0.996, 0.994, 0.976, 0.930, 0.660, 0.350 ]

Brewsters angle(in), 56.4587 deg 
Brewsters angle(out), 33.5413 deg 
Critical angle, 41.5232 deg

OpticsPars_175OpticsPars_176

 

Glass: P-SF68 
-------------------------------
Glass code: 5210.619 
Refractive index, Nd = 2.0052
Abbe number, Vd = 21.0000

Constants of Dispersion dn/dT
D0 = 1.55e-005
D1 = 2.30e-008
D2 = -3.46e-011
E0 = 2.76e-006
E1 = 2.93e-009
L_TK = 2.97e-001 µm

Thermal Expansion
CTE = 8.43e-006 1/K, -30°C to +70°C
CTE = 9.67e-006 1/K, +20°C to +300°C 

Density, ro =   6.19 g/cm^3
dPgF = 3.08e-002 

Dispersion formula
n^2 - 1 = (0.4529614*L^2)/(L^2 - 0.07160863) + (2.333007*L^2)/(L^2 - 0.01688384) + (1.251723*L^2)/(L^2 - 118.7075) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.050, 0.250, 0.500, 0.780, 0.940, 0.973, 0.985, 0.989, 0.993, 0.998, 0.990, 0.940, 0.780, 0.560 ]

Brewsters angle(in), 63.4944 deg 
Brewsters angle(out), 26.5056 deg 
Critical angle, 29.9143 deg


OpticsPars_177 OpticsPars_178

Glass: P-SF8 
-------------------------------
Glass code: 689313.29 
Refractive index, Nd = 1.6889
Abbe number, Vd = 31.2500

Constants of Dispersion dn/dT
D0 = -4.27e-006
D1 = 8.16e-009
D2 = -2.00e-011
E0 = 9.02e-007
E1 = 1.22e-009
L_TK = 2.72e-001 µm

Thermal Expansion
CTE = 9.41e-006 1/K, -30°C to +70°C
CTE = 1.11e-005 1/K, +20°C to +300°C 

Density, ro =   2.90 g/cm^3
dPgF = 7.90e-003 

Dispersion formula
n^2 - 1 = (1.553704*L^2)/(L^2 - 0.01165827) + (1.397088*L^2)/(L^2 - 130.748) + (0.2063326*L^2)/(L^2 - 0.05820878) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.040, 0.150, 0.480, 0.710, 0.820, 0.850, 0.900, 0.930, 0.950, 0.972, 0.986, 0.987, 0.984, 0.984, 0.988, 0.997, 0.977, 0.850, 0.570, 0.450 ]

Brewsters angle(in), 59.3706 deg 
Brewsters angle(out), 30.6294 deg 
Critical angle, 36.3055 deg


OpticsPars_179 OpticsPars_180

Glass: P-SK57 
-------------------------------
Glass code: 587596.301 
Refractive index, Nd = 1.5870
Abbe number, Vd = 59.6000

Constants of Dispersion dn/dT
D0 = 2.60e-006
D1 = 9.40e-009
D2 = -2.30e-011
E0 = 4.90e-007
E1 = 5.96e-010
L_TK = 1.78e-001 µm

Thermal Expansion
CTE = 7.23e-006 1/K, -30°C to +70°C
CTE = 8.90e-006 1/K, +20°C to +300°C 

Density, ro =   3.01 g/cm^3
dPgF = -2.40e-003 

Dispersion formula
n^2 - 1 = (1.109877*L^2)/(L^2 - 107.7511) + (0.1693762*L^2)/(L^2 - 0.02545635) + (1.310534*L^2)/(L^2 - 0.007408772) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.160, 0.610, 0.870, 0.950, 0.960, 0.973, 0.980, 0.984, 0.985, 0.987, 0.989, 0.991, 0.995, 0.997, 0.997, 0.997, 0.997, 0.997, 0.997, 0.978, 0.890, 0.630, 0.400 ]

Brewsters angle(in), 57.7842 deg 
Brewsters angle(out), 32.2158 deg 
Critical angle, 39.0590 deg


OpticsPars_181 OpticsPars_182

Glass: SF1 
-------------------------------
Glass code: 717295.446 
Refractive index, Nd = 1.7174
Abbe number, Vd = 29.5100

Constants of Dispersion dn/dT
D0 = 4.84e-006
D1 = 1.70e-008
D2 = -4.52e-011
E0 = 1.38e-006
E1 = 1.26e-009
L_TK = 2.59e-001 µm

Thermal Expansion
CTE = 8.10e-006 1/K, -30°C to +70°C
CTE = 8.80e-006 1/K, +20°C to +300°C 

Density, ro =   4.46 g/cm^3
dPgF = 4.20e-003 

Dispersion formula
n^2 - 1 = (0.9688429*L^2)/(L^2 - 112.1748) + (0.2842463*L^2)/(L^2 - 0.0534549) + (1.559129*L^2)/(L^2 - 0.0121481) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.030, 0.500, 0.640, 0.790, 0.870, 0.920, 0.930, 0.961, 0.976, 0.984, 0.993, 0.996, 0.996, 0.995, 0.995, 0.996, 0.996, 0.985, 0.900, 0.730, 0.650 ]

Brewsters angle(in), 59.7882 deg 
Brewsters angle(out), 30.2118 deg 
Critical angle, 35.6117 deg


OpticsPars_183 OpticsPars_184

Glass: SF10 
-------------------------------
Glass code: 728284.428 
Refractive index, Nd = 1.7283
Abbe number, Vd = 28.4100

Constants of Dispersion dn/dT
D0 = 5.31e-006
D1 = 1.59e-008
D2 = -4.07e-011
E0 = 1.28e-006
E1 = 1.32e-009
L_TK = 2.70e-001 µm

Thermal Expansion
CTE = 7.50e-006 1/K, -30°C to +70°C
CTE = 8.40e-006 1/K, +20°C to +300°C 

Density, ro =   4.28 g/cm^3
dPgF = 8.50e-003 

Dispersion formula
n^2 - 1 = (1.077623*L^2)/(L^2 - 116.6077) + (1.61626*L^2)/(L^2 - 0.01275346) + (0.2592293*L^2)/(L^2 - 0.0581984) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.060, 0.370, 0.690, 0.790, 0.920, 0.961, 0.978, 0.989, 0.995, 0.995, 0.993, 0.993, 0.995, 0.997, 0.987, 0.920, 0.760, 0.690 ]

Brewsters angle(in), 59.9455 deg 
Brewsters angle(out), 30.0545 deg 
Critical angle, 35.3535 deg


OpticsPars_185 OpticsPars_186

Glass: SF2 
-------------------------------
Glass code: 648339.386 
Refractive index, Nd = 1.6477
Abbe number, Vd = 33.8500

Constants of Dispersion dn/dT
D0 = 1.10e-006
D1 = 1.75e-008
D2 = -1.29e-011
E0 = 1.08e-006
E1 = 1.03e-009
L_TK = 2.49e-001 µm

Thermal Expansion
CTE = 8.40e-006 1/K, -30°C to +70°C
CTE = 9.20e-006 1/K, +20°C to +300°C 

Density, ro =   3.86 g/cm^3
dPgF = 1.70e-003 

Dispersion formula
n^2 - 1 = (0.9390566*L^2)/(L^2 - 112.406) + (0.2317675*L^2)/(L^2 - 0.0493227) + (1.403018*L^2)/(L^2 - 0.01057955) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.370, 0.720, 0.790, 0.870, 0.920, 0.954, 0.962, 0.975, 0.982, 0.988, 0.993, 0.995, 0.995, 0.995, 0.994, 0.996, 0.996, 0.985, 0.880, 0.710, 0.620 ]

Brewsters angle(in), 58.7460 deg 
Brewsters angle(out), 31.2540 deg 
Critical angle, 37.3664 deg


OpticsPars_187 OpticsPars_188

Glass: SF4 
-------------------------------
Glass code: 755276.479 
Refractive index, Nd = 1.7552
Abbe number, Vd = 27.5800

Constants of Dispersion dn/dT
D0 = 5.60e-006
D1 = 1.70e-008
D2 = -5.27e-011
E0 = 1.54e-006
E1 = 1.46e-009
L_TK = 2.66e-001 µm

Thermal Expansion
CTE = 8.00e-006 1/K, -30°C to +70°C
CTE = 8.90e-006 1/K, +20°C to +300°C 

Density, ro =   4.79 g/cm^3
dPgF = 6.20e-003 

Dispersion formula
n^2 - 1 = (0.3394932*L^2)/(L^2 - 0.05445598) + (1.619578*L^2)/(L^2 - 0.01255021) + (1.025669*L^2)/(L^2 - 117.6522) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.280, 0.450, 0.690, 0.820, 0.890, 0.910, 0.950, 0.967, 0.980, 0.991, 0.996, 0.996, 0.995, 0.995, 0.996, 0.996, 0.989, 0.910, 0.740, 0.660 ]

Brewsters angle(in), 60.3283 deg 
Brewsters angle(out), 29.6717 deg 
Critical angle, 34.7318 deg


OpticsPars_189 OpticsPars_190

Glass: SF5 
-------------------------------
Glass code: 673322.407 
Refractive index, Nd = 1.6727
Abbe number, Vd = 32.2100

Constants of Dispersion dn/dT
D0 = 2.59e-006
D1 = 1.76e-008
D2 = -2.03e-011
E0 = 1.17e-006
E1 = 1.09e-009
L_TK = 2.55e-001 µm

Thermal Expansion
CTE = 8.20e-006 1/K, -30°C to +70°C
CTE = 9.00e-006 1/K, +20°C to +300°C 

Density, ro =   4.07 g/cm^3
dPgF = 2.30e-003 

Dispersion formula
n^2 - 1 = (0.9499958*L^2)/(L^2 - 112.0419) + (0.247713*L^2)/(L^2 - 0.05085947) + (1.461419*L^2)/(L^2 - 0.01118261) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.310, 0.730, 0.800, 0.880, 0.920, 0.950, 0.959, 0.973, 0.982, 0.988, 0.993, 0.996, 0.996, 0.995, 0.995, 0.996, 0.996, 0.987, 0.900, 0.740, 0.660 ]

Brewsters angle(in), 59.1275 deg 
Brewsters angle(out), 30.8725 deg 
Critical angle, 36.7151 deg


OpticsPars_191 OpticsPars_192

Glass: SF56A 
-------------------------------
Glass code: 785261.492 
Refractive index, Nd = 1.7847
Abbe number, Vd = 26.0800

Constants of Dispersion dn/dT
D0 = 6.02e-006
D1 = 1.70e-008
D2 = -2.61e-011
E0 = 1.63e-006
E1 = 1.59e-009
L_TK = 2.69e-001 µm

Thermal Expansion
CTE = 7.90e-006 1/K, -30°C to +70°C
CTE = 8.80e-006 1/K, +20°C to +300°C 

Density, ro =   4.92 g/cm^3
dPgF = 9.80e-003 

Dispersion formula
n^2 - 1 = (1.705793*L^2)/(L^2 - 0.01338747) + (1.096018*L^2)/(L^2 - 121.616) + (0.3442231*L^2)/(L^2 - 0.05795616) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.010, 0.100, 0.410, 0.680, 0.760, 0.900, 0.950, 0.974, 0.989, 0.994, 0.994, 0.994, 0.993, 0.995, 0.997, 0.989, 0.920, 0.760, 0.700 ]

Brewsters angle(in), 60.7373 deg 
Brewsters angle(out), 29.2627 deg 
Critical angle, 34.0778 deg


OpticsPars_193 OpticsPars_194

Glass: SF57 
-------------------------------
Glass code: 847238.551 
Refractive index, Nd = 1.8467
Abbe number, Vd = 23.8300

Constants of Dispersion dn/dT
D0 = 7.26e-006
D1 = 1.88e-008
D2 = -5.14e-011
E0 = 1.96e-006
E1 = 1.79e-009
L_TK = 2.76e-001 µm

Thermal Expansion
CTE = 8.30e-006 1/K, -30°C to +70°C
CTE = 9.20e-006 1/K, +20°C to +300°C 

Density, ro =   5.51 g/cm^3
dPgF = 1.23e-002 

Dispersion formula
n^2 - 1 = (1.071863*L^2)/(L^2 - 121.4199) + (0.4288936*L^2)/(L^2 - 0.05928012) + (1.816514*L^2)/(L^2 - 0.01437042) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.010, 0.198, 0.450, 0.660, 0.730, 0.860, 0.930, 0.968, 0.986, 0.994, 0.994, 0.994, 0.994, 0.996, 0.997, 0.991, 0.930, 0.790, 0.750 ]

Brewsters angle(in), 61.5636 deg 
Brewsters angle(out), 28.4364 deg 
Critical angle, 32.7870 deg


OpticsPars_195 OpticsPars_196

Glass: SF6 
-------------------------------
Glass code: 805254.518 
Refractive index, Nd = 1.8052
Abbe number, Vd = 25.4300

Constants of Dispersion dn/dT
D0 = 6.69e-006
D1 = 1.78e-008
D2 = -3.36e-011
E0 = 1.77e-006
E1 = 1.70e-009
L_TK = 2.69e-001 µm

Thermal Expansion
CTE = 8.10e-006 1/K, -30°C to +70°C
CTE = 9.00e-006 1/K, +20°C to +300°C 

Density, ro =   5.18 g/cm^3
dPgF = 9.20e-003 

Dispersion formula
n^2 - 1 = (0.3901049*L^2)/(L^2 - 0.05693181) + (1.724485*L^2)/(L^2 - 0.01348719) + (1.045729*L^2)/(L^2 - 118.5572) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.030, 0.130, 0.440, 0.660, 0.800, 0.840, 0.920, 0.955, 0.978, 0.991, 0.996, 0.996, 0.995, 0.996, 0.997, 0.999, 0.991, 0.930, 0.790, 0.740 ]

Brewsters angle(in), 61.0152 deg 
Brewsters angle(out), 28.9848 deg 
Critical angle, 33.6392 deg


OpticsPars_197 OpticsPars_198

Glass: SF6HT 
-------------------------------
Glass code: 805254.518 
Refractive index, Nd = 1.8052
Abbe number, Vd = 25.4300

Constants of Dispersion dn/dT
D0 = 6.69e-006
D1 = 1.78e-008
D2 = -3.36e-011
E0 = 1.77e-006
E1 = 1.70e-009
L_TK = 2.69e-001 µm

Thermal Expansion
CTE = 8.10e-006 1/K, -30°C to +70°C
CTE = 9.00e-006 1/K, +20°C to +300°C 

Density, ro =   5.18 g/cm^3
dPgF = 9.20e-003 

Dispersion formula
n^2 - 1 = (0.3901049*L^2)/(L^2 - 0.05693181) + (1.724485*L^2)/(L^2 - 0.01348719) + (1.045729*L^2)/(L^2 - 118.5572) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.050, 0.180, 0.520, 0.750, 0.860, 0.890, 0.943, 0.967, 0.981, 0.991, 0.996, 0.996, 0.995, 0.996, 0.997, 0.999, 0.991, 0.930, 0.790, 0.740 ]

Brewsters angle(in), 61.0152 deg 
Brewsters angle(out), 28.9848 deg 
Critical angle, 33.6392 deg


OpticsPars_199 OpticsPars_200

Glass: SF57HTultra 
-------------------------------
Glass code: 847238.551 
Refractive index, Nd = 1.8467
Abbe number, Vd = 23.8300

Constants of Dispersion dn/dT
D0 = 7.26e-006
D1 = 1.88e-008
D2 = -5.14e-011
E0 = 1.96e-006
E1 = 1.79e-009
L_TK = 2.76e-001 µm

Thermal Expansion
CTE = 8.30e-006 1/K, -30°C to +70°C
CTE = 9.20e-006 1/K, +20°C to +300°C 

Density, ro =   5.51 g/cm^3
dPgF = 1.23e-002 

Dispersion formula
n^2 - 1 = (1.071863*L^2)/(L^2 - 121.4199) + (0.4288936*L^2)/(L^2 - 0.05928012) + (1.816514*L^2)/(L^2 - 0.01437042) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.029, 0.304, 0.630, 0.820, 0.860, 0.930, 0.962, 0.978, 0.990, 0.997, 0.997, 0.997, 0.997, 0.998, 0.999, 0.994, 0.951, 0.835, 0.798 ]

Brewsters angle(in), 61.5636 deg 
Brewsters angle(out), 28.4364 deg 
Critical angle, 32.7870 deg


OpticsPars_201 OpticsPars_202

Glass: LASF35 
-------------------------------
Glass code: 22291.541 
Refractive index, Nd = 2.0220
Abbe number, Vd = 29.0600

Constants of Dispersion dn/dT
D0 = 1.43e-007
D1 = 8.71e-009
D2 = -2.71e-011
E0 = 1.02e-006
E1 = 1.50e-009
L_TK = 2.63e-001 µm

Thermal Expansion
CTE = 7.40e-006 1/K, -30°C to +70°C
CTE = 8.50e-006 1/K, +20°C to +300°C 

Density, ro =   5.41 g/cm^3
dPgF = 3.30e-003 

Dispersion formula
n^2 - 1 = (0.4530061*L^2)/(L^2 - 0.0545803) + (2.455059*L^2)/(L^2 - 0.01356704) + (2.385131*L^2)/(L^2 - 167.9047) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.000, 0.050, 0.180, 0.320, 0.390, 0.550, 0.670, 0.774, 0.874, 0.943, 0.962, 0.969, 0.974, 0.981, 0.994, 0.987, 0.934, 0.720, 0.550 ]

Brewsters angle(in), 63.6853 deg 
Brewsters angle(out), 26.3147 deg 
Critical angle, 29.6401 deg


OpticsPars_203 OpticsPars_204

Glass: N-SK10 
-------------------------------
Glass code: 623570.364 
Refractive index, Nd = 1.6228
Abbe number, Vd = 56.9800

Constants of Dispersion dn/dT
D0 = 5.05e-007
D1 = 1.16e-008
D2 = -1.53e-011
E0 = 4.90e-007
E1 = 5.10e-010
L_TK = 1.83e-001 µm

Thermal Expansion
CTE = 6.83e-006 1/K, -30°C to +70°C
CTE = 7.84e-006 1/K, +20°C to +300°C 

Density, ro =   3.64 g/cm^3
dPgF = -5.00e-004 

Dispersion formula
n^2 - 1 = (0.238588*L^2)/(L^2 - 0.02537653) + (0.9667336*L^2)/(L^2 - 103.5029) + (1.349721*L^2)/(L^2 - 0.007362723) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.110, 0.520, 0.790, 0.840, 0.910, 0.950, 0.970, 0.975, 0.985, 0.987, 0.990, 0.995, 0.996, 0.996, 0.994, 0.993, 0.995, 0.994, 0.980, 0.920, 0.670, 0.460 ]

Brewsters angle(in), 58.3575 deg 
Brewsters angle(out), 31.6425 deg 
Critical angle, 38.0411 deg


OpticsPars_205 OpticsPars_206

Glass: N-SK15 
-------------------------------
Glass code: 623580.362 
Refractive index, Nd = 1.6230
Abbe number, Vd = 58.0200

Constants of Dispersion dn/dT
D0 = 4.92e-007
D1 = 1.20e-008
D2 = -2.96e-012
E0 = 4.66e-007
E1 = 5.16e-010
L_TK = 1.79e-001 µm

Thermal Expansion
CTE = 6.70e-006 1/K, -30°C to +70°C
CTE = 7.60e-006 1/K, +20°C to +300°C 

Density, ro =   3.62 g/cm^3
dPgF = -9.00e-004 

Dispersion formula
n^2 - 1 = (1.304178*L^2)/(L^2 - 0.006950513) + (0.9747816*L^2)/(L^2 - 99.01688) + (0.2858412*L^2)/(L^2 - 0.02320237) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.180, 0.563, 0.800, 0.850, 0.910, 0.941, 0.960, 0.966, 0.974, 0.978, 0.982, 0.990, 0.993, 0.993, 0.992, 0.992, 0.994, 0.991, 0.975, 0.900, 0.620, 0.370 ]

Brewsters angle(in), 58.3604 deg 
Brewsters angle(out), 31.6396 deg 
Critical angle, 38.0361 deg


OpticsPars_207 OpticsPars_208

Glass: N-BAF3 
-------------------------------
Glass code: 583466.279 
Refractive index, Nd = 1.5827
Abbe number, Vd = 46.6400

Constants of Dispersion dn/dT
D0 = 1.40e-006
D1 = 1.24e-008
D2 = -9.39e-012
E0 = 5.91e-007
E1 = 7.44e-010
L_TK = 2.35e-001 µm

Thermal Expansion
CTE = 7.17e-006 1/K, -30°C to +70°C
CTE = 8.24e-006 1/K, +20°C to +300°C 

Density, ro =   2.79 g/cm^3
dPgF = 1.50e-003 

Dispersion formula
n^2 - 1 = (1.132071*L^2)/(L^2 - 112.9361) + (0.1076442*L^2)/(L^2 - 0.04784064) + (1.348596*L^2)/(L^2 - 0.008714929) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.240, 0.400, 0.670, 0.820, 0.900, 0.920, 0.952, 0.965, 0.975, 0.985, 0.991, 0.993, 0.991, 0.992, 0.994, 0.993, 0.980, 0.890, 0.660, 0.460 ]

Brewsters angle(in), 57.7143 deg 
Brewsters angle(out), 32.2857 deg 
Critical angle, 39.1848 deg


OpticsPars_209 OpticsPars_210

Glass: BAFN6 
-------------------------------
Glass code: 589485.317 
Refractive index, Nd = 1.5890
Abbe number, Vd = 48.4500

Constants of Dispersion dn/dT
D0 = 1.34e-006
D1 = 1.34e-008
D2 = -5.50e-011
E0 = 4.95e-007
E1 = 3.62e-010
L_TK = 2.65e-001 µm

Thermal Expansion
CTE = 7.80e-006 1/K, -30°C to +70°C
CTE = 8.50e-006 1/K, +20°C to +300°C 

Density, ro =   3.17 g/cm^3
dPgF = 2.00e-004 

Dispersion formula
n^2 - 1 = (1.02108*L^2)/(L^2 - 113.586) + (0.1090799*L^2)/(L^2 - 0.04387316) + (1.367192*L^2)/(L^2 - 0.008828207) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0 ]
T    =[ 0.120, 0.560, 0.670, 0.810, 0.890, 0.930, 0.940, 0.954, 0.963, 0.975, 0.986, 0.991, 0.994, 0.994, 0.995, 0.997, 0.995, 0.995, 0.940, 0.780 ]

Brewsters angle(in), 57.8167 deg 
Brewsters angle(out), 32.1833 deg 
Critical angle, 39.0005 deg


OpticsPars_211 OpticsPars_212

Glass: N-LAF3 
-------------------------------
Glass code: 717480.414 
Refractive index, Nd = 1.7170
Abbe number, Vd = 47.9600

Constants of Dispersion dn/dT
D0 = -2.35e-006
D1 = 1.07e-008
D2 = -9.38e-012
E0 = 5.72e-007
E1 = 6.01e-010
L_TK = 2.20e-001 µm

Thermal Expansion
CTE = 7.60e-006 1/K, -30°C to +70°C
CTE = 8.70e-006 1/K, +20°C to +300°C 

Density, ro =   4.14 g/cm^3
dPgF = -2.80e-003 

Dispersion formula
n^2 - 1 = (1.065866*L^2)/(L^2 - 98.07585) + (0.1508745*L^2)/(L^2 - 0.04078872) + (1.731559*L^2)/(L^2 - 0.009538339) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.060, 0.420, 0.540, 0.720, 0.830, 0.890, 0.910, 0.940, 0.955, 0.968, 0.985, 0.993, 0.993, 0.993, 0.993, 0.993, 0.993, 0.980, 0.880, 0.580, 0.310 ]

Brewsters angle(in), 59.7830 deg 
Brewsters angle(out), 30.2170 deg 
Critical angle, 35.6203 deg


OpticsPars_213 OpticsPars_214

Glass: SFL57 
-------------------------------
Glass code: 847236.355 
Refractive index, Nd = 1.8467
Abbe number, Vd = 23.6200

Constants of Dispersion dn/dT
D0 = -3.63e-006
D1 = 8.61e-009
D2 = -9.98e-012
E0 = 1.10e-006
E1 = 1.69e-009
L_TK = 2.93e-001 µm

Thermal Expansion
CTE = 8.70e-006 1/K, -30°C to +70°C
CTE = 1.00e-005 1/K, +20°C to +300°C 

Density, ro =   3.55 g/cm^3
dPgF = 1.77e-002 

Dispersion formula
n^2 - 1 = (2.261893*L^2)/(L^2 - 176.0622) + (0.360534*L^2)/(L^2 - 0.06481989) + (1.887423*L^2)/(L^2 - 0.01459393) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.030, 0.200, 0.290, 0.520, 0.670, 0.800, 0.890, 0.955, 0.971, 0.971, 0.969, 0.976, 0.991, 0.990, 0.960, 0.790, 0.730 ]

Brewsters angle(in), 61.5636 deg 
Brewsters angle(out), 28.4364 deg 
Critical angle, 32.7870 deg


OpticsPars_215 OpticsPars_216

Glass: SFL6 
-------------------------------
Glass code: 805254.337 
Refractive index, Nd = 1.8052
Abbe number, Vd = 25.3900

Constants of Dispersion dn/dT
D0 = -5.26e-006
D1 = 7.41e-009
D2 = -1.89e-011
E0 = 1.02e-006
E1 = 1.62e-009
L_TK = 2.88e-001 µm

Thermal Expansion
CTE = 9.00e-006 1/K, -30°C to +70°C
CTE = 1.03e-005 1/K, +20°C to +300°C 

Density, ro =   3.37 g/cm^3
dPgF = 1.48e-002 

Dispersion formula
n^2 - 1 = (1.789221*L^2)/(L^2 - 0.01351635) + (2.016394*L^2)/(L^2 - 168.0147) + (0.3284274*L^2)/(L^2 - 0.06227296) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0 ]
T    =[ 0.020, 0.250, 0.520, 0.670, 0.720, 0.810, 0.860, 0.900, 0.940, 0.970, 0.980, 0.983, 0.988, 0.989, 0.988, 0.995, 0.950, 0.840 ]

Brewsters angle(in), 61.0152 deg 
Brewsters angle(out), 28.9848 deg 
Critical angle, 33.6392 deg


OpticsPars_217 OpticsPars_218

Glass: N-SF19 
-------------------------------
Glass code: 667331.29 
Refractive index, Nd = 1.6668
Abbe number, Vd = 33.1200

Constants of Dispersion dn/dT
D0 = 1.32e-006
D1 = 1.22e-008
D2 = -1.36e-011
E0 = 7.64e-007
E1 = 1.09e-009
L_TK = 2.79e-001 µm

Thermal Expansion
CTE = 7.20e-006 1/K, -30°C to +70°C
CTE = 8.30e-006 1/K, +20°C to +300°C 

Density, ro =   2.90 g/cm^3
dPgF = 9.50e-003 

Dispersion formula
n^2 - 1 = (1.520054*L^2)/(L^2 - 0.01096144) + (1.436234*L^2)/(L^2 - 126.7952) + (0.1757395*L^2)/(L^2 - 0.05932485) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.050, 0.330, 0.620, 0.770, 0.810, 0.880, 0.915, 0.937, 0.960, 0.977, 0.980, 0.978, 0.980, 0.985, 0.989, 0.970, 0.890, 0.620, 0.440 ]

Brewsters angle(in), 59.0381 deg 
Brewsters angle(out), 30.9619 deg 
Critical angle, 36.8667 deg


OpticsPars_219 OpticsPars_220

Glass: N-SF56 
-------------------------------
Glass code: 785261.328 
Refractive index, Nd = 1.7847
Abbe number, Vd = 26.1000

Constants of Dispersion dn/dT
D0 = -4.13e-006
D1 = 7.65e-009
D2 = -1.12e-011
E0 = 9.90e-007
E1 = 1.57e-009
L_TK = 2.87e-001 µm

Thermal Expansion
CTE = 8.70e-006 1/K, -30°C to +70°C
CTE = 1.00e-005 1/K, +20°C to +300°C 

Density, ro =   3.28 g/cm^3
dPgF = 1.40e-002 

Dispersion formula
n^2 - 1 = (1.735621*L^2)/(L^2 - 0.01296247) + (1.953982*L^2)/(L^2 - 161.5594) + (0.317487*L^2)/(L^2 - 0.06128843) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.130, 0.370, 0.570, 0.640, 0.780, 0.860, 0.910, 0.950, 0.976, 0.983, 0.981, 0.981, 0.986, 0.996, 0.981, 0.900, 0.680, 0.590 ]

Brewsters angle(in), 60.7373 deg 
Brewsters angle(out), 29.2627 deg 
Critical angle, 34.0778 deg


OpticsPars_221 OpticsPars_222

Glass: N-PSK53 
-------------------------------
Glass code: 620635.36 
Refractive index, Nd = 1.6201
Abbe number, Vd = 63.4800

Constants of Dispersion dn/dT
D0 = -9.29e-006
D1 = 5.78e-009
D2 = 8.87e-013
E0 = 4.59e-007
E1 = 5.86e-010
L_TK = 1.55e-001 µm

Thermal Expansion
CTE = 9.40e-006 1/K, -30°C to +70°C
CTE = 1.09e-005 1/K, +20°C to +300°C 

Density, ro =   3.60 g/cm^3
dPgF = 5.30e-003 

Dispersion formula
n^2 - 1 = (1.343409*L^2)/(L^2 - 0.006750743) + (0.9528969*L^2)/(L^2 - 103.5515) + (0.2414179*L^2)/(L^2 - 0.02199105) 

Internal Transmittance T(thick. = 25 mm) vs Wavelength(MATLAB friendly) 
L_nm =[ 310.0, 320.0, 334.0, 350.0, 365.0, 370.0, 380.0, 390.0, 400.0, 405.0, 420.0, 436.0, 460.0, 500.0, 546.0, 580.0, 620.0, 660.0, 700.0,1060.0,1530.0,1970.0,2325.0,2500.0 ]
T    =[ 0.000, 0.030, 0.200, 0.530, 0.780, 0.830, 0.900, 0.940, 0.964, 0.970, 0.979, 0.982, 0.986, 0.992, 0.995, 0.994, 0.992, 0.993, 0.994, 0.994, 0.956, 0.800, 0.510, 0.290 ]

Brewsters angle(in), 58.3158 deg 
Brewsters angle(out), 31.6842 deg 
Critical angle, 38.1142 deg


OpticsPars_223 OpticsPars_224

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Basic MATLAB

Using the break command to stop the while loop for given condition

t = 1;
while 1 % infinite loop
t = t+1;
    if (t > 1000 ) % condition
        break      % break the loop
    end
end

Distance Transform Path Planning Algorithm

clc;close all;clear all;

Input Map

RGB = imread('Mapn.png');
figure('Position',[600 0 600 1000],'color','k');
image(RGB);
hold on;
axis off
axis image
hold off;
% Convert to binary image matrix and inverse matrix values
I = rgb2gray(RGB);
binaryImage = im2bw(RGB, 0.3);
binaryImage = 1-binaryImage;
% Inital pose
xs = 540; ys = 750;
% Goal Pose
xg = 150; yg = 150;

dist_01

Distance to Goal

sz  = size(binaryImage);
for i = 1:sz(1)
    for j = 1:sz(2)
       rg(i,j) = sqrt((i-yg)^2 +(j - xg)^2);
      end
end
% Pose Matrix
pose = zeros(sz(1),sz(2));
pose(ys,xs) = 1;
pose(yg,xg) = 1;
Di = 15; % Distance of influence of the obstacles
% Compute for every pixel the distance to the nearest obstacle(non zero
% elements which after inversion corespondent to the obstacles)
[D,IDX] = bwdist(binaryImage);
for i = 1:sz(1)
    for j = 1:sz(2)
        rd = D(i,j);
        if (rd <= Di)
            rg(i,j)  = 1e6;
        end
    end
end

Distance Transform Path Planning Algorithm

figure('Position',[600 0 600 1000],'color','k');
hold on;
image(RGB);
colormap gray
contour(rg,15);
spy(pose,'*r');
axis off
axis image
title('Distance Transform Path Planning Algorithm','color','w');
x = xs; y = ys;
last = rg(y-1,x-1);
while (x ~= xg)||(y ~= yg)
    dis =[ rg(y-1,x-1), rg(y-1,x),rg(y-1,x+1);
        rg(y,x-1), rg(y,x) ,rg(y,x+1);
        rg(y+1,x-1), rg(y+1,x),rg(y+1,x+1)];
     m = min(dis(:));
     [r,c] = find(dis == m);
   rg(y,x) = 1E6;
   y = y-2+r;
   x = x-2+c;
   pose(y,x) = 1;
  end
spy(pose,'.r');
set(gcf, 'InvertHardCopy', 'off');
hold off;

dist_02

Voronoi Road Map, Path Planing

clc;close all;clear all;

Input Map

RGB = imread('Map.png');
figure('Position',[100 0 600 700],'color','k');
imagesc(RGB);
axis image
title('Input Map','color','w');
axis off
set(gcf, 'InvertHardCopy', 'off');
hold off;

voron_01

Convert to binary image matrix and inverse matrix values

I = rgb2gray(RGB);
binaryImage = im2bw(RGB, 0.3);
sz  = size(binaryImage);

Inital pose

xs = 225; ys = 355;
% Goal Pose
xg = 50; yg = 50;
% Pose Matrix
pose = zeros(sz(1),sz(2));
pose(ys,xs) = 1;
pose(yg,xg) = 1;

Voronoi Road Map

figure('Position',[100 0 600 700],'color','k');
hold on;
set(gcf, 'InvertHardCopy', 'off');
sk = 1;
for i = 1:sz(1)
    for j = 1:sz(2)
         if(binaryImage(i,j) == 1 )
     xv(sk) = j;
     yv(sk) = i;
     sk = sk+1;
         end
    end
end
[vrx,vry]  = voronoi(xv,yv);
set(gca,'YDir','Reverse');
plot(xv,yv,'y.',vrx,vry,'b-');
axis tight
%axis([1 sz(2) 1 sz(1) ]) ;
axis image
title({'Voronoi Road Map';
'* - Represents Starting and Goal Position '},'color','w');
axis off
spy(pose,'*r');

voron_02

Robot Path

x = xs; y = ys;
indk = 1;
while (abs(x - xg) > 5)||(abs(y - yg)> 5)
path(:,indk) = [x y];
dist = sqrt((vrx - x).^2+(vry - y).^2);
goal = sqrt((xg - x).^2+(xg - y).^2);
% Find closest vertices of the Voronoi edges
[mn ind] = min(dist(:));
xt = vrx(ind);
yt = vry(ind);
goalj = sqrt((xg - xt).^2+(xg - yt).^2);
if (goalj < goal )
x = xt;
y = yt;
vrx(ind) = 1E6;
vry(ind) = 1E6;
indk = indk +1;
else
vrx(ind) = 1E6;
vry(ind) = 1E6;
end
end
path(:,indk) = [xg yg];
plot(path(1,:),path(2,:),'-r');
title({'Voronoi Road Map and Robot Path';
'* - Represents Starting and Goal Position '},'color','w');

voron_03

 

Voronoi diagram of Prime Spiral

Contents

Ulam’s Prime Spiral

To generate a Ulam’s prime spiral the positive integers are arranged in a spiral pathern and prime numbers are highlighted in some way along the spiral. For example we used blue pixels to represent primes and white pixels for composite numbers. The code below uses built in Matlab function to generate the Ulam spiral.

close all;
clc
clear all
sz  = 101; % Size of the NxN square matrix
mat = spiral(sz);
k =1;
for i =1:sz
    for j=1:sz
        if isprime(mat(i,j)) % Check if the number is prime
            % saving indices of primes
            y(k) = i;
            x(k) = j;
            k = k+1;
        end
    end
end
figure('Position',[0 0 800 800]);
hold on;
colormap bone;
scatter(x,y,'.b');
axis([1 sz  1 sz ]);
axis off;
set(gca,'YDir','Reverse');

VaranoiUlam_01

Now lets construct Varanoi diagram for the prime numbers (higlighted points in blue) in Ulam spiral.

figure('Position',[0 0 800 800]);
hold on;
xy = [x',y'];
[v,c] = voronoin(xy);
for i = 1:length(c)
  patch(v(c{i},1),v(c{i},2),'w');
end
axis([1 sz  1 sz ]); axis off;
set(gca,'YDir','Reverse');
scatter(x,y,'.b');

VaranoiUlam_02

Cells in Voronoi diagram of the Ulam Prime Spiral

% We observe various poligons with  n-sides such as triangles, quadrangles, pentagons, etc...
% Lets call
% A3 = a sequence of prime numbers which has a Triangular Voronoi cell in Voronoi diagram of the Ulam Prime Spiral
% A4 = a sequence of prime numbers which has a Quadrilateral Voronoi cell in Voronoi diagram of the Ulam Prime Spiral
% A5 = a sequence of prime numbers which has a Pentagonal Voronoi cell in Voronoi diagram of the Ulam Prime Spiral
% A6 = 6 sides
% A7 = 7 sides
% An = n sides
% Q1: What is the maximum value for n, n_max ? In other words is there an uper bound ?
% Q2: If yes, What are the primes whic has a n_max side poligon cells in Voronoi diagram of the Ulam Prime Spiral
% The code below is used to calculate An
k3 = 1; k4 = 1; k5 = 1; k6 = 1; k7 = 1; k8 = 1;
for i = 1:length(c)
  szv = size(v(c{i},1));
  polyN(i) = szv(1);
  switch polyN(i)
    case 3
        A3(k3) = mat(y(i),x(i));
        k3 = k3+1;
        A3xy(k3,:)= [x(i),y(i)];
    case 4
        A4(k4) = mat(y(i),x(i));
        k4 = k4+1;
        A4xy(k4,:)= [x(i),y(i)];
    case 5
        A5(k5) = mat(y(i),x(i));
        k5 = k5+1;
        A5xy(k5,:)= [x(i),y(i)];
    case 6
        A6(k6) = mat(y(i),x(i));
        k6 = k6+1;
        A6xy(k6,:)= [x(i),y(i)];
    case 7
        A7(k7) = mat(y(i),x(i));
        k7 = k7+1;
        A7xy(k7,:)= [x(i),y(i)];
    case 8
        A8(k8) = mat(y(i),x(i));
        k8 = k8+1;
        A8xy(k8,:)= [x(i),y(i)];
  end
end
%
% First 15 terms
A3 = sort(A3);
fprintf('A3 = ');
fprintf('%i, ',A3(1:15));
fprintf('\n');
A4 = sort(A4);
fprintf('A4 = ');
fprintf('%i, ',A4(1:15));
fprintf('\n');
A5 = sort(A5);
fprintf('A5 = ');
fprintf('%i, ',A5(1:15));
fprintf('\n');
A6 = sort(A6);
fprintf('A6 = ');
fprintf('%i, ',A6(1:15));
fprintf('\n');
A7 = sort(A7);
fprintf('A7 = ');
fprintf('%i, ',A7(1:15));
fprintf('\n');
A8 = sort(A8);
fprintf('A8 = ');
fprintf('%i, ',A8(1:15));
fprintf('\n');
A3 = 313, 389, 1283, 1399, 1669, 1787, 2087, 2143, 2713, 2801, 3469, 4091, 4787, 4789, 4903, 
A4 = 23, 31, 47, 59, 71, 73, 79, 131, 139, 167, 173, 181, 229, 239, 251, 
A5 = 2, 3, 11, 13, 17, 19, 29, 37, 53, 83, 97, 101, 103, 107, 109, 
A6 = 5, 7, 41, 43, 89, 127, 179, 193, 233, 263, 283, 317, 379, 383, 397, 
A7 = 61, 157, 199, 311, 349, 409, 463, 509, 557, 601, 641, 691, 727, 757, 823, 
A8 = 67, 491, 613, 1013, 1117, 1201, 1249, 1301, 1373, 1543, 1753, 1907, 2017, 2339, 2411, 
% Plotting
% The color code used
% n = 3, Triangle yellow
% n = 4, Tetragon green
% n = 5, Pentagon magenta
% n = 6, cyan
% n = 7, red
% n = 8, yellow

figure('Position',[0 0 800 800]);
hold on;
xy = [x',y'];
[v,c] = voronoin(xy);
for i = 1:length(c)
  patch(v(c{i},1),v(c{i},2),'w');
end
axis([1 sz  1 sz ]); axis off;
set(gca,'YDir','Reverse');
scatter(A3xy(:,1),A3xy(:,2),'.k');
scatter(A4xy(:,1),A4xy(:,2),'.g');
scatter(A5xy(:,1),A5xy(:,2),'.m');
scatter(A6xy(:,1),A6xy(:,2),'.c');
scatter(A7xy(:,1),A7xy(:,2),'.r');
scatter(A8xy(:,1),A8xy(:,2),'.y');
% Note that the last terms can be wrong. They corespond to the points on the outer
% edges of the spiral which might be altered when considering a larger spiral.

VaranoiUlam_03

Triangular Cells with Integer Area

k3 = 1;
k3i = 1;
fprintf('Prime, Cell Area, Perimeter \n');
for i = 1:length(c)
  szv = size(v(c{i},1));
  polyN(i) = szv(1);
    if(polyN(i) == 3)
       % Sides of a triangle
         A = v(c{i}(1, 1),:) - v(c{i}(1, 2),:);
         B = v(c{i}(1, 1),:) - v(c{i}(1, 3),:);
         C = v(c{i}(1, 2),:) - v(c{i}(1, 3),:);
        % Perimeter of a triangle
         pv = norm(A)+ norm(B)+ norm(C);
         P3(k3) = pv;
        % Area of a triangle
        AB = cross([A,0], [B,0], 2);
        S3(k3) =  1/2 * sum(sqrt(sum(AB.^2, 2)));
        A3(k3) = mat(y(i),x(i));
        fprintf('%i %4.4f %4.4f \n',A3(k3), S3(k3),P3(k3))
        %  Primes with triangle Voronoi cells with integer area
        if S3(k3)== round(S3(k3)) % check if area is integer
            A3i(k3i) = mat(y(i),x(i));
            k3i = k3i +1;
        end
            k3 = k3+1;
    end
end
% Primes with triangular Voronoi cells with integer area
fprintf('\n A3i = ');
A3i = sort(A3i);
fprintf('%i, ',A3i);
Prime, Cell Area, Perimeter 
8999 9.0000 14.4853 
9001 9.0000 14.4853 
8627 4.5000 10.2426 
10093  NaN  Inf 
6869 8.0000 13.6569 
9419 6.0000 11.4049 
5867 6.0000 11.4049 
3469 6.0000 11.4049 
2801 6.0000 11.4049 
1669 4.5000 10.2426 
9439 4.5000 10.2426 
4787 6.0000 11.4049 
4789 6.0000 11.4049 
2143 4.5000 10.2426 
1787 4.5000 10.2426 
4933 6.0000 11.4049 
313 6.0000 11.4049 
389 6.0000 11.4049 
1399 6.0000 11.4049 
2713 4.5000 10.2426 
1283 6.0000 11.4049 
2087 4.0000 9.6569 
4091 6.0000 11.4049 
4903 6.2500 12.0711 
8111 6.0000 11.4049 
6037 6.2500 12.0711 
10007  NaN  Inf 
9929  NaN  Inf 

 A3i = 313, 389, 1283, 1399, 2087, 2801, 3469, 4091, 4787, 4789, 4933, 5867, 6869, 8111, 8999, 9001, 9419,

 

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