Refractive index of SiC (Silicon carbide)

Optical constants of SiC (Silicon carbide)
Larruquert et al. 2011: Thin film; n,k 0.006154–131.7 µm

Wavelength: µm

(0.00615447–131.7250957)

Complex refractive index (n+ik)[ i ]

Derived optical constants

Conditions & Spec sheet

n_is_absolute: true
wavelength_is_vacuum: true

Comments

Density: 2.98 g/cm³. Film deposited at room temperature.

References

J. I. Larruquert, A. P. Pérez-Marín, S. García-Cortés, L. Rodríguez-de Marcos, J. A. Aznárez, J. A. Méndez. Self-consistent optical constants of SiC thin films, J. Opt. Soc. Am. A 28, 2340-2345 (2011) (Numerical data kindly provided by Juan Larruquert)

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

Silicon carbide, SiC

Silicon carbide (SiC) is a robust and hard compound characterized by its high thermal conductivity, high electric field breakdown strength, and high power frequency. Its hardness is second only to diamond, which makes it an ideal material for abrasive applications. SiC possesses excellent thermal stability, allowing it to maintain its structural integrity in high-temperature environments. As a result, it is commonly used in power electronics, especially in high voltage devices, due to its ability to operate at high temperatures. In the realm of optoelectronics, SiC serves as a substrate for LED production, given its beneficial bandgap properties. Furthermore, its thermal and chemical resistance has made it a favored material in automotive applications, specifically for brake discs. In recent years, its transparent nature in some infrared spectra has led to research into its use for transparent armor and windows. Its unique combination of electrical, thermal, and mechanical properties position SiC as a pivotal material for various high-performance applications.

Alternative names of some polymorphs

6H-SiC: α-SiC
3C-SiC: β-SiC

RefractiveIndex.INFO

Optical constants of SiC (Silicon carbide)
Larruquert et al. 2011: Thin film; n,k 0.006154–131.7 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

Silicon carbide, SiC

Alternative names of some polymorphs

External links

Optical constants of SiC (Silicon carbide)Larruquert et al. 2011: Thin film; n,k 0.006154–131.7 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

Silicon carbide, SiC

Alternative names of some polymorphs

External links

Optical constants of SiC (Silicon carbide)
Larruquert et al. 2011: Thin film; n,k 0.006154–131.7 µm