Calculation of the wave-vector-dependent interband impact-ionization transition rate in wurtzite and zinc-blende phases of bulk GaN

Jan Kolnik; Ismail H. Oguzman; Kevin F. Brennan; R. Wang; P. Paul Ruden

doi:10.1063/1.362509

Calculation of the wave-vector-dependent interband impact-ionization transition rate in wurtzite and zinc-blende phases of bulk GaN

Jan Kolnik, Ismail H. Oguzman, Kevin F. Brennan, R. Wang, P. Paul Ruden

Electrical and Computer Engineering

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Abstract

We present calculations of the wave-vector-dependent interband impact-ionization transition rate in wurtzite and zinc-blende phases of bulk GaN. The transition rate is determined by integrating Fermi's golden rule for a two-body, screened Coulomb interaction over the possible final states using a numerically generated dielectric function and pseudowavefunctions. The full details of all relevant conduction and valence bands in zinc-blende and wurtzite GaN are included from an empirical pseudopotential calculation. It is found that the transition rate is consistent with a relatively "soft" threshold energy.

Original language	English (US)
Pages (from-to)	8838-8840
Number of pages	3
Journal	Journal of Applied Physics
Volume	79
Issue number	11
DOIs	https://doi.org/10.1063/1.362509
State	Published - Jun 1 1996

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AU - Kolnik, Jan

AU - Oguzman, Ismail H.

AU - Brennan, Kevin F.

AU - Wang, R.

AU - Paul Ruden, P.

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N2 - We present calculations of the wave-vector-dependent interband impact-ionization transition rate in wurtzite and zinc-blende phases of bulk GaN. The transition rate is determined by integrating Fermi's golden rule for a two-body, screened Coulomb interaction over the possible final states using a numerically generated dielectric function and pseudowavefunctions. The full details of all relevant conduction and valence bands in zinc-blende and wurtzite GaN are included from an empirical pseudopotential calculation. It is found that the transition rate is consistent with a relatively "soft" threshold energy.

AB - We present calculations of the wave-vector-dependent interband impact-ionization transition rate in wurtzite and zinc-blende phases of bulk GaN. The transition rate is determined by integrating Fermi's golden rule for a two-body, screened Coulomb interaction over the possible final states using a numerically generated dielectric function and pseudowavefunctions. The full details of all relevant conduction and valence bands in zinc-blende and wurtzite GaN are included from an empirical pseudopotential calculation. It is found that the transition rate is consistent with a relatively "soft" threshold energy.

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Calculation of the wave-vector-dependent interband impact-ionization transition rate in wurtzite and zinc-blende phases of bulk GaN

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