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Main Author: Yamamoto, Masakazu
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.16956
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_version_ 1866918470391693312
author Yamamoto, Masakazu
author_facet Yamamoto, Masakazu
contents In this paper, the initial value problem for the Debye--Hueckel drift-diffusion equation is studied. This equation was introduced as a model describing plasma behavior and is also known as a simulation model of MOSFET, and so its solution describes charge density. It is well-known that, if the initial density is localized, then the density is adjusted to be radially symmetric due to the linear diffusion. Consequently, the electric field is also governed by a radially symmetric potential, and its effects are expected to act radially symmetrically. The main result express the electric field and its effect on the charge density as concrete functions. It also denotes the distortion of symmetry and the shift of scale on the density due to the internal electric field. Unlike the historical paper via Escobedo and Zuazua and the followers, the main result captures stronger nonlinearity than the logarithmic shift.
format Preprint
id arxiv_https___arxiv_org_abs_2511_16956
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Distortion of charge distribution due to internal electric fields described by the drift-diffusion semiconductor model
Yamamoto, Masakazu
Analysis of PDEs
Mathematical Physics
35B40, 35K45, 35K55, 35Q75, 35Q81, 78A35
In this paper, the initial value problem for the Debye--Hueckel drift-diffusion equation is studied. This equation was introduced as a model describing plasma behavior and is also known as a simulation model of MOSFET, and so its solution describes charge density. It is well-known that, if the initial density is localized, then the density is adjusted to be radially symmetric due to the linear diffusion. Consequently, the electric field is also governed by a radially symmetric potential, and its effects are expected to act radially symmetrically. The main result express the electric field and its effect on the charge density as concrete functions. It also denotes the distortion of symmetry and the shift of scale on the density due to the internal electric field. Unlike the historical paper via Escobedo and Zuazua and the followers, the main result captures stronger nonlinearity than the logarithmic shift.
title Distortion of charge distribution due to internal electric fields described by the drift-diffusion semiconductor model
topic Analysis of PDEs
Mathematical Physics
35B40, 35K45, 35K55, 35Q75, 35Q81, 78A35
url https://arxiv.org/abs/2511.16956