Monte Carlo calculation of hole transport in bulk zincblende phase of GaN including a pseudopotential calculated band structure

I. H. Oguzman; J. Kolnik; K. F. Brennan; R. Wang; P. P. Ruden

Monte Carlo calculation of hole transport in bulk zincblende phase of GaN including a pseudopotential calculated band structure

I. H. Oguzman, J. Kolnik, K. F. Brennan, R. Wang, P. P. Ruden

Electrical and Computer Engineering

Research output: Contribution to journal › Conference article › peer-review

Abstract

In this paper, we present ensemble Monte Carlo based calculations of the steady state hole transport properties, i.e. average energy, drift velocity, and band occupancy of zincblende GaN. The Monte Carlo calculation includes the full details of the valence bands and a numerically determined scattering rate derived from an empirical pseudopotential calculation. Calculations are made for electric field strengths up to 1000 kV/cm. It is found that the average hole energies are much lower than the corresponding electron energies at comparable electric field strengths, and that some anisotropy in the drift velocity and average energy appears at the higher fields examined here.

Original language	English (US)
Pages (from-to)	479-484
Number of pages	6
Journal	Materials Research Society Symposium - Proceedings
Volume	395
State	Published - 1996
Event	Proceedings of the 1995 MRS Fall Meeting - Boston, MA, USA Duration: Nov 26 1995 → Dec 1 1995

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@article{0489ab5ff05041eca1704ad8bccc4b58,

title = "Monte Carlo calculation of hole transport in bulk zincblende phase of GaN including a pseudopotential calculated band structure",

abstract = "In this paper, we present ensemble Monte Carlo based calculations of the steady state hole transport properties, i.e. average energy, drift velocity, and band occupancy of zincblende GaN. The Monte Carlo calculation includes the full details of the valence bands and a numerically determined scattering rate derived from an empirical pseudopotential calculation. Calculations are made for electric field strengths up to 1000 kV/cm. It is found that the average hole energies are much lower than the corresponding electron energies at comparable electric field strengths, and that some anisotropy in the drift velocity and average energy appears at the higher fields examined here.",

author = "Oguzman, {I. H.} and J. Kolnik and Brennan, {K. F.} and R. Wang and Ruden, {P. P.}",

year = "1996",

language = "English (US)",

volume = "395",

pages = "479--484",

journal = "Materials Research Society Symposium - Proceedings",

issn = "0272-9172",

publisher = "Materials Research Society",

note = "Proceedings of the 1995 MRS Fall Meeting ; Conference date: 26-11-1995 Through 01-12-1995",

}

TY - JOUR

T1 - Monte Carlo calculation of hole transport in bulk zincblende phase of GaN including a pseudopotential calculated band structure

AU - Oguzman, I. H.

AU - Kolnik, J.

AU - Brennan, K. F.

AU - Wang, R.

AU - Ruden, P. P.

PY - 1996

Y1 - 1996

N2 - In this paper, we present ensemble Monte Carlo based calculations of the steady state hole transport properties, i.e. average energy, drift velocity, and band occupancy of zincblende GaN. The Monte Carlo calculation includes the full details of the valence bands and a numerically determined scattering rate derived from an empirical pseudopotential calculation. Calculations are made for electric field strengths up to 1000 kV/cm. It is found that the average hole energies are much lower than the corresponding electron energies at comparable electric field strengths, and that some anisotropy in the drift velocity and average energy appears at the higher fields examined here.

AB - In this paper, we present ensemble Monte Carlo based calculations of the steady state hole transport properties, i.e. average energy, drift velocity, and band occupancy of zincblende GaN. The Monte Carlo calculation includes the full details of the valence bands and a numerically determined scattering rate derived from an empirical pseudopotential calculation. Calculations are made for electric field strengths up to 1000 kV/cm. It is found that the average hole energies are much lower than the corresponding electron energies at comparable electric field strengths, and that some anisotropy in the drift velocity and average energy appears at the higher fields examined here.

UR - http://www.scopus.com/inward/record.url?scp=0029726603&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=0029726603&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:0029726603

SN - 0272-9172

VL - 395

SP - 479

EP - 484

JO - Materials Research Society Symposium - Proceedings

JF - Materials Research Society Symposium - Proceedings

T2 - Proceedings of the 1995 MRS Fall Meeting

Y2 - 26 November 1995 through 1 December 1995

ER -

Monte Carlo calculation of hole transport in bulk zincblende phase of GaN including a pseudopotential calculated band structure

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