Refractive index of GaN (Gallium nitride)

Optical constants of GaN (Gallium nitride)
Lin et al. 1993: Zincblende; n 0.37–0.99 µm

Wavelength: µm

(0.385447–0.960283)

Complex refractive index (n+ik)[ i ]

Derived optical constants

Comments

Zincblend GaN film grown on GaAs substrate by plasma-enhanced molecular beam epitaxy.

References

M. E. Lin, B. N. Sverdlov, S. Strite, H. Morkoç, A. E. Drakin. Refractive indices of wurtzite and zincblende GaN, Electron. Lett. 29, 1759-1760 (1993) (Data points extracted from a figure)

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

Gallium nitride, GaN

Gallium nitride (GaN) is a binary III/V direct bandgap semiconductor commonly used in light-emitting diodes (LEDs) for both general lighting and displays. With a wide bandgap of about 3.4 eV, GaN is also highly valued for its thermal stability, which makes it particularly useful in high-power and high-frequency applications. It is an essential material in the fabrication of high-electron-mobility transistors (HEMTs) and is increasingly used in high-frequency and high-power radar and communication systems. GaN has gained prominence in optoelectronics, specifically in the development of blue LEDs, which led to energy-efficient white LEDs and was recognized with the 2014 Nobel Prize in Physics. It is often grown on substrates like sapphire or silicon carbide, although the industry is moving towards native GaN substrates for higher performance.

Other name

Gallium(III) nitride

RefractiveIndex.INFO

Optical constants of GaN (Gallium nitride)
Lin et al. 1993: Zincblende; n 0.37–0.99 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

Gallium nitride, GaN

Other name

External links

Optical constants of GaN (Gallium nitride)Lin et al. 1993: Zincblende; n 0.37–0.99 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

Gallium nitride, GaN

Other name

External links

Optical constants of GaN (Gallium nitride)
Lin et al. 1993: Zincblende; n 0.37–0.99 µm