Optical constants of CDGM - ZBAF (Dense barium flint)
H-ZBAF52
Wavelength:
µm
(0.340–2.400)
Complex refractive index (n+ik)
n
k
LogX
LogY
eV
Derived optical constants
Dispersion formula
$$n^2-1=\frac{1.51688354λ^2}{λ^2-0.00857006565}+\frac{0.211371553λ^2}{λ^2-0.0370160061}+\frac{1.35763017λ^2}{λ^2-144.349229}$$Conditions & Spec sheet
temperature: 293 thermal_dispersion: - type: Schott formula coefficients: 3.4e-06 1.49e-08 -3.46e-11 6.98e-07 6.04e-10 0.212 nd: "1.670030" Vd: "47.195060" glass_code: 670472 density: '3.57 g/cm3' thermal_expansion: - temperature_range: 243 343 coefficient: 7.0E-6 - temperature_range: 293 573 coefficient: 8.8E-6 dPgF: -0.002 climatic_resistance: "1.0"
References
CDGM Zemax catalog 2022-06 (obtained from http://www.cdgmgd.com)
See also CDGM optical glass data sheets
Data
INFO
BAF10 optical glass
BAF10 glass is a specific type of optical glass known for its unique refractive index and Abbe number properties. It's often used in the construction of high-precision optical components such as lenses, prisms, and other elements in optical systems that require superior performance. BAF10 glass is especially valued in applications where minimizing chromatic aberration is crucial. The unique composition of this glass type allows it to transmit light with minimal dispersion, thereby improving the quality and clarity of the resulting optical images. BAF10 glass is usually more expensive than more common types of optical glass like BK7 or soda-lime glass, and its use is generally reserved for specialized optical applications where the highest performance is necessary. Overall, BAF10 glass represents a specialized category within optical materials, offering specific advantages in high-performance systems.BAF10 and similar glasses produced by different makers
Maker | Glass |
---|---|
Schott | N-BAF10 |
Hikari | E-BAF10 |
HOYA | BAF10 |
Ohara | S-BAH10 |
CDGM | H-ZBAF52 |