Refractive index of Bi (Bismuth)

Optical constants of Bi (Bismuth)
Werner et al. 2009: n,k 0.0176–2.48 µm

Wavelength: µm

(0.017586–2.479684)

Complex refractive index (n+ik)[ i ]

Derived optical constants

Conditions & Spec sheet

n_is_absolute: true
wavelength_is_vacuum: true

Comments

Experimental data: Derived from reflection electron energy-loss spectroscopy (REELS) spectra.

References

W. S. M. Werner, K. Glantschnig, C. Ambrosch-Draxl. Optical constants and inelastic electron-scattering data for 17 elemental metals, J. Phys Chem Ref. Data 38, 1013-1092 (2009)

Data

[CSV - comma separated] [TXT - tab separated] [Full database record]

Optical transmission calculator

Wavelength: µm
Thickness:
Calculation method:

Transmittance[ i ]

T =

LogX LogY eV

Reflection calculator

Wavelength: µm
Angle of incidence (0~90°):
Direction: in out

Reflectance[ i ]

P-polarized

R_P =

S-polarized

R_S =

Non-polarized (Rp+Rs)/2

R =

R_P R_S R LogY

Reflection phase[ i ]

ɸ_P = °
ɸ_S = °

Brewster's angle[ i ]

θ_B = °

Critical angle[ i ] [ i ]

θ_C = °

INFO

Bismuth, Bi

Bismuth (Bi) is a heavy, brittle metal with a number of unique properties, including a low thermal conductivity and a high electrical resistivity. While it is not traditionally used in mainstream optical applications, bismuth compounds like bismuth germanate (BGO) and bismuth silicate (BSO) have garnered attention in scintillation detectors and nonlinear optics, respectively. Pure bismuth has a high refractive index and is transparent to various infrared wavelengths, making it potentially useful for specialized optical components in the IR range. However, it is mostly used in alloyed or compound form due to its brittleness and difficulty in fabrication. One key limitation in using bismuth or its compounds in optical applications is its relatively low melting point, which restricts its utility in high-temperature environments. Nonetheless, the metal's unique electrical and thermal properties, as well as its capacity to form compounds with interesting optical characteristics, make it a subject of ongoing research in the field of material science and optics.

RefractiveIndex.INFO

Optical constants of Bi (Bismuth)
Werner et al. 2009: n,k 0.0176–2.48 µm

Complex refractive index (n+ik)[ i ]

Refractive index[ i ]

Extinction coefficient[ i ]

Derived optical constants

Relative permittivity (dielectric constants)[ i ] [ i ]

Absorption coefficient[ i ] [ i ]

Abbe number[ i ]

Chromatic dispersion[ i ]

Group index[ i ] [ i ]

Group velocity dispersion[ i ] [ i ] [ i ]

Conditions & Spec sheet

Comments

References

Data

Optical transmission calculator

Transmittance[ i ]

Reflection calculator

Reflectance[ i ]

P-polarized

S-polarized

Non-polarized (Rp+Rs)/2

Reflection phase[ i ]

Brewster's angle[ i ]

Critical angle[ i ] [ i ]

INFO

Bismuth, Bi

External links

Optical constants of Bi (Bismuth)Werner et al. 2009: n,k 0.0176–2.48 µm

Complex refractive index (n+ik)[ i ]

Refractive index[ i ]

Extinction coefficient[ i ]

Derived optical constants

Relative permittivity (dielectric constants)[ i ] [ i ]

Absorption coefficient[ i ] [ i ]

Abbe number[ i ]

Chromatic dispersion[ i ]

Group index[ i ] [ i ]

Group velocity dispersion[ i ] [ i ] [ i ]

Conditions & Spec sheet

Comments

References

Data

Optical transmission calculator

Transmittance[ i ]

Reflection calculator

Reflectance[ i ]

P-polarized

S-polarized

Non-polarized (Rp+Rs)/2

Reflection phase[ i ]

Brewster's angle[ i ]

Critical angle[ i ] [ i ]

INFO

Bismuth, Bi

External links

Optical constants of Bi (Bismuth)
Werner et al. 2009: n,k 0.0176–2.48 µm