5 edition of **The Stationary Semiconductor Device Equations (Computational Microelectronics)** found in the catalog.

- 14 Want to read
- 19 Currently reading

Published
**February 11, 2004**
by Springer
.

Written in English

- Circuits & components,
- Mathematics for scientists & engineers,
- Engineering - Electrical & Electronic,
- Optics,
- Power Resources,
- Equations,
- Technology / Optics,
- Technology & Industrial Arts

The Physical Object | |
---|---|

Format | Hardcover |

Number of Pages | 202 |

ID Numbers | |

Open Library | OL9785152M |

ISBN 10 | 3211818928 |

ISBN 10 | 9783211818923 |

Neamen's Semiconductor Physics and Devices deals with the electrical properties and characteristics of semiconductor materials and devices. The goal of this book is to bring together quantum mechanics, the quantum theory of solids, semiconductor material physics, and semiconductor device physics in a clear and understandable way/5(25). Application of finite element methods to the simulation of semiconductor devices. Miller J J H and Wang S An analysis of the Scharfetter-Gummel box method for the stationary semiconductor device equations, RAIRO Modél. Math. Anal. Numér. 28 Crossref Google ScholarCited by:

FOR THE STATIONARY SEMICONDUCTOR DEVICE EQUATIONS (*) J. J. H. MILLER f) and S. WANG (l) Commumcated by R TEMAM Abstract A Petrov-Galerkin mixed fimte element method based on tnangular éléments for a self-adjoint second order elhptic System ansing from a stationary model of a semiconductorCited by: Analysis and Simulation of Semiconductor Devices. a review. User Review - Flag as inappropriate. we need this book to refer pls arrange it soon. References to this book. The Stationary Semiconductor Device Equations Peter A All Book Search results » Bibliographic information. Title: Analysis and Simulation of Semiconductor Devices:3/5(1).

CiteSeerX - Document Details (Isaac Councill, Lee Giles, Pradeep Teregowda): This paper describes a three--dimensional simulator for semiconductor devices in stationary state developed on a message passing multiprocessor. A Gummel style nonlinear iteration was used, and the Poisson and the continuity equations were discretized using the finite element method. 11 Semiconductor Materials and Devices This chapter is the heart of the book. We’ve learned about how physical phenomena can represent and communicate information, and will learn about how it can be input, stored, and output, but here we turn to the essential electronic devices that transform Size: KB.

You might also like

Principles of crop improvement

Principles of crop improvement

Roys wife of Aldivalloch

Roys wife of Aldivalloch

Metallurgical thermochemistry

Metallurgical thermochemistry

Volvo 740 & 760 owners workshop manual

Volvo 740 & 760 owners workshop manual

small farm

small farm

Ahiara declaration

Ahiara declaration

friendship of Anne

friendship of Anne

Out of the Saltbox

Out of the Saltbox

Commercial and economic law in Estonia

Commercial and economic law in Estonia

War Requiem

War Requiem

Achieving writing excellence (AWE)

Achieving writing excellence (AWE)

Motorshipping

Motorshipping

Step Kids

Step Kids

Musical discrimination at various age and grade levels

Musical discrimination at various age and grade levels

LT K-C King Kevin Fo (Work and Play)

LT K-C King Kevin Fo (Work and Play)

In this book the static semiconductor device problem is presented and analysed from an applied mathematician's point of view. I shall derive the device equations - as obtained for the first time by Van Roosbroeck in - from physical principles, present a mathematical analysis, discuss their numerical solu tion by discretisation techniques and report on selected device simulation runs.

Introduction. In the last two decades semiconductor device simulation has become a research area, which thrives on a cooperation of physicists, electrical engineers and mathe maticians. In this book the static semiconductor device problem is presented and.

The Stationary Semiconductor Device Equations (Computational Microelectronics) by P.A. Markowich ISBN ISBN Hardcover; Springer; ISBN The Stationary Semiconductor Device Equations 1st Edition published for specialty places as well as a limited viewers, meant to become browse only by compact and devoted curiosity groups.|This free book website is actually.

Introduction.- 2. Mathematical Modeling of Semiconductor Devices.- 3. Analysis of the Basic Stationary Semiconductor Device Equations.- 4. Singular Perturbation Analysis of the Stationary Semiconductor Device Problem.- 5.

Discretisation of the Stationary Device Problem.- 6. Numerical Simulation - A Case Study.- Notation of Physical Quantities Introduction --Mathematical Modeling of Semiconductor Devices --Analysis of the Basic Stationary Semiconductor Device Equations --Singular Perturbation Analysis of the Stationary Semiconductor Device Problem --Discretisation of the Stationary Device Problem --Numerical Simulation --A Case Study --Appendix: Notation of Physical Quantities; Mathematical Notation This comprehensive book brings you the fundamentals of semiconductor device theory from basic quantum physics to computer aided design.

Advanced Theory of Semiconductor Devices will help improve your understanding of computer simulation devices through a thorough discussion of basic equations, their validity, and numerical solutions as they are contained in current simulation tools.

Download Semiconductor Physics And Devices By Donald Neamen – Semiconductor Physics And Devices is a book that is written for students pursuing their undergraduate degrees in semiconductor physics, and h the course of this book, the readers are guided through concepts such as quantum theory of solids, semiconductor material physics, semiconductor device physics, and.

In this Chapter we shall formulate the system of partial differential equations, which describes potential distribution, carrier concentrations and current flow in semiconductor devices.

We shall supplement the system by boundary conditions representing the interaction of the device with the outer world and discuss the modeling of physical Cited by: 1. One great book to start with is Neamen's Semiconductor Physics and Devices. It's written in an easygoing tone and very readable, and it covers everything from basic solid-state physics to transport behavior (e.g., drift-diffusion) to all kinds of.

Stationary Semiconductor Device Equations Autor Peter A. Markowich. The static semiconductor device problem is treated in an applied mathematics way. Qualitative properties, e.g.

existence and uniqueness of solutions, and quantitative properties, particularly the structure of steady state solution. SEMICONDUCTOR DEVICE EQUATIONS where Th dénotes a triangulation of O with each triangle t having diameter less than or equal to h and h0 is a positive constant which is smaller than the diameter of H.

For each Th e TS, let Xh = {x,}^ dénote the vertices of Th and Eh = {et}^ the edges of Th. We assume that the nodes inCited by: 9. Semiconductor Physics and Devices – Donald Neamen Solution Manual for Principles of Electronic Materials and Devices – Safa Kasap Solution Manual.

Derivation of the Metal-Semiconductor junction current. Metal-Semiconductor contacts. Ohmic contacts Tunnel contacts Annealed and alloyed contacts Contact resistance to a thin semiconductor layer. Metal-Semiconductor Field Effect Transistors (MESFETs) Schottky diode with an interfacial layer Other unipolar.

The second part covers semiconductor device physics within the context of computation. The third part reviews chip design and semiconductor fabrication.

The book includes relevant equations, with the aim of closing the gap in the existing literature with actual case studies and engineering : Mary Y. Lanzerotti, Robert W.

Keyes. Classical Semiconductor Device Equations The semiconductor device equations can be used to describe the whole simulation domain of a semiconductor device. They are applied to the bulk semiconductor, the highly doped regions such as source and drain, and.

A TWO-DIMENSIONAL FINITE ELEMENT ANALYSIS OF THE STATIONARY SEMICONDUCTOR DEVICE EQUATIONS by PATRICK PABLO C H A V E Z B.

Sc., The University of British Columbia, A THESIS SUBMITTED IN PARTIAL FULFILMENT OF THE REQUIREMENTS FOR THE DEGREE OF MASTER OF APPLIED SCIENCE in THE F A C U L T Y OF G R A D U A T E STUDIES. In this paper, the system of the semiconductor device equations with heat effect is considered.

An approximation to the system that makes use of a mixed finite element method for the electrostatic. This paper describes a three--dimensional simulator for semiconductor devicesin stationary state developed on a message passing multiprocessor.

AGummel style nonlinear iteration was used, and the Poisson and the continuityequations were discretized. Mathematical Modeling of Semiconductor Devices.- 3. Analysis of the Basic Stationary Semiconductor Device Equations.- 4. Singular Perturbation Analysis of the Stationary Semiconductor Device.

Stationary Semiconductor Device Equations (Computational Microelectronics): ISBN () Hardcover, Springer Verlag, Founded inhas become a leading book price comparison site.Computer Physics Communications 65 () North-Holland Semiconductor device simulation Karl Gustafson Department of Mathematics, University of Colorado, Boulder, CO USA A short account of certain interesting problems in semiconductor physics, process, and device Cited by: 2.Books and Book Editorships.

Publication list for members of E - Institute for Microelectronics as any persons named in the publication record. "The Stationary Semiconductor Device Equations"; S. Selberherr (ed); Springer-Verlag, Wien - New York, (), ISBN: