Refractive index of Te (Tellurium)

Optical constants of Te (Tellurium)
Guo et al. 2022: n,k(o) 0.400–0.900 µm

Wavelength: µm

(0.400–0.900)

Complex refractive index (n+ik)[ i ]

Derived optical constants

Comments

Tellurene. Ordinary ray (o).

References

Z. Guo, H. Gu, M. Fang, L. Yed, S. Liu, Giant in-plane optical and electronic anisotropy of tellurene: a quantitative exploration, Nanoscale, 14, 12238–12246 (2022) (Numerical data kindly provided by Zhengfeng Guo)

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

Tellurium, Te

Tellurium (Te) is a relatively rare, brittle, and silver-white metalloid with a crystalline structure. It is found naturally in the Earth's crust and is primarily obtained as a byproduct of the refining of copper ores. Tellurium has the unique property of being more conductive in certain directions, which can be valuable in specific electronic applications. Its compounds, especially with metals like cadmium (CdTe), are used in semiconductors and solar cells. Moreover, binary alloys of tellurium with bismuth, lead, and other metals have been studied for their thermoelectric properties, which can convert heat directly into electricity. The photoconductivity of tellurium also makes it valuable in some photovoltaic applications. Another noteworthy application of tellurium is in the rewritable optical discs (DVD-RW, Blu-ray), where it's used in the form of an alloy with antimony.

RefractiveIndex.INFO

Optical constants of Te (Tellurium)
Guo et al. 2022: n,k(o) 0.400–0.900 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 ]

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

Tellurium, Te

External links

Optical constants of Te (Tellurium)Guo et al. 2022: n,k(o) 0.400–0.900 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 ]

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

Tellurium, Te

External links

Optical constants of Te (Tellurium)
Guo et al. 2022: n,k(o) 0.400–0.900 µm