Calculation of the electron velocity distribution in high electron mobility transistors using an ensemble Monte Carlo method

Ta-Hui Wang; K. Hess

doi:10.1063/1.334851

Calculation of the electron velocity distribution in high electron mobility transistors using an ensemble Monte Carlo method

Ta-Hui Wang^*, K. Hess

^*Corresponding author for this work

Institute of Electronics

Research output: Contribution to journal › Article › peer-review

58 Scopus citations

Abstract

The electron velocity distribution is calculated for an idealized model of the high electron mobility transistor using a many-particle Monte Carlo model and a self-consistent two-dimensional Poisson solver. Hot electron effects, nonstationary effects, and real space transfer are analyzed. The results show that significant velocity overshoot, 2.8×10 ⁷ cm/s at 300 K and 3.7×10 ⁷ cm/s at 77 K exists under the gate and that the velocity overshoot is limited by both k-space transfer and real-space transfer. The values of the overshoot velocities are much smaller than those obtained from the more conventional drift-diffusion model.

Original language	English
Pages (from-to)	5336-5339
Number of pages	4
Journal	Journal of Applied Physics
Volume	57
Issue number	12
DOIs	https://doi.org/10.1063/1.334851
State	Published - 1 Dec 1985

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title = "Calculation of the electron velocity distribution in high electron mobility transistors using an ensemble Monte Carlo method",

abstract = " The electron velocity distribution is calculated for an idealized model of the high electron mobility transistor using a many-particle Monte Carlo model and a self-consistent two-dimensional Poisson solver. Hot electron effects, nonstationary effects, and real space transfer are analyzed. The results show that significant velocity overshoot, 2.8×10 7 cm/s at 300 K and 3.7×10 7 cm/s at 77 K exists under the gate and that the velocity overshoot is limited by both k-space transfer and real-space transfer. The values of the overshoot velocities are much smaller than those obtained from the more conventional drift-diffusion model. ",

author = "Ta-Hui Wang and K. Hess",

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AU - Hess, K.

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N2 - The electron velocity distribution is calculated for an idealized model of the high electron mobility transistor using a many-particle Monte Carlo model and a self-consistent two-dimensional Poisson solver. Hot electron effects, nonstationary effects, and real space transfer are analyzed. The results show that significant velocity overshoot, 2.8×10 7 cm/s at 300 K and 3.7×10 7 cm/s at 77 K exists under the gate and that the velocity overshoot is limited by both k-space transfer and real-space transfer. The values of the overshoot velocities are much smaller than those obtained from the more conventional drift-diffusion model.

AB - The electron velocity distribution is calculated for an idealized model of the high electron mobility transistor using a many-particle Monte Carlo model and a self-consistent two-dimensional Poisson solver. Hot electron effects, nonstationary effects, and real space transfer are analyzed. The results show that significant velocity overshoot, 2.8×10 7 cm/s at 300 K and 3.7×10 7 cm/s at 77 K exists under the gate and that the velocity overshoot is limited by both k-space transfer and real-space transfer. The values of the overshoot velocities are much smaller than those obtained from the more conventional drift-diffusion model.

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Calculation of the electron velocity distribution in high electron mobility transistors using an ensemble Monte Carlo method

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