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Modeling self-heating effects in nanoscale devices /

"Version: 20170801"--Title page verso."A Morgan & Claypool publication as part of IOP Concise Physics"--Title page verso.Includes bibliographical references.Preface -- 1. Introduction -- 1.1. Some general aspects of heat conduction -- 1.2. Solution of the self-heating problem -- 1.3. Modeling heating effects in state of the art devices with the commercial tool SILVACO2. Current state of the art in modeling heating effects in nanoscale devices -- 2.1. Some general considerations about the solution of the heat transport problem in devices -- 2.2. Solving lattice heating problem in nanoscale devices -- 2.3. Multi-scale modeling--modeling of circuits (CS and CD configuration) -- 2.4. Conclusions3. Phonon Monte Carlo simulation -- 3.1. Phonon-phonon scattering -- 3.2. Monte Carlo simulation procedure -- 3.3. Verification of Monte Carlo code -- 3.4. Phonon Monte Carlo results -- 3.5. Conclusions4. Summary -- 4.1. The choice of proper thermal boundary conditions -- 4.2. Thermal conductivity model currently used in the simulator -- 4.3. Multiscale modeling of device + interconnects -- 4.4. Phonon Monte Carlo need and its necessary improvements -- Appendix A. Derivation of energy balance equations for acoustic and optical phonons.Accurate thermal modeling and the design of microelectronic devices and thin film structures at the micro- and nanoscales poses a challenge to electrical engineers who are less familiar with the basic concepts and ideas in sub-continuum heat transport. This book aims to bridge that gap. Efficient heat removal methods are necessary to increase device performance and device reliability. The authors provide readers with a combination of nanoscale experimental techniques and accurate modeling methods that must be employed in order to determine a device's temperature profile.Researchers in semiconductor physics and materials, nanoscience and engineering, solid state electronics.Also available in print.Mode of access: World Wide Web.System requirements: Adobe Acrobat Reader, EPUB reader. or Kindle reader.Abdul Rawoof Shaik is currently pursuing a PhD at Arizona State University working on modelling defect migration in cadmium telluride solar cells. He has co-authored four conference papers and two book chapters about thermal modelling of nanoscale devices during his master's thesis work. Dragica Vasileska is a Professor of Electrical Engineering at Arizona State University. She is a Senior Member of both IEEE and APS and has published more than 180 publications in journals, over 200 conference proceedings refereed papers, dozens of book chapters, and is co-author of two books. She received the 1998 NSF Career Award. Katerina Raleva is currently an Associate Professor of Electronics at the Faculty of Electrical Engineering and Information Technologies (FIET), Skopje, Macedonia. Her research interests include, semiconductor physics, semiconductor device modeling and modelling devices on a circuit level. She has published more than 80 scientific publications in scientific journals and conference proceedings and several book chapters. Stephen M. Goodnick is the Director of the Arizona Initiative for Nano-Electronics. He served as Chair and Professor of Electrical Engineering with Arizona State University from 1996 to 2005. He has published over 400 journal articles, books, book chapters, and conference proceedings and is a Fellow of IEEE (2004) for contributions to carrier transport fundamentals and semiconductor devices.Title from PDF title page (viewed on September 22, 2017).

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Series Title
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Call Number
-
Publisher
: .,
Collation
1 online resource (various pagings) :illustrations (some color).
Language
English
ISBN/ISSN
9781681741239
Classification
621.3/8152
Content Type
-
Media Type
-
Carrier Type
-
Edition
-
Subject(s)
Electronic devices & materials.
Heat
TECHNOLOGY & ENGINEERING / Electrical.
Nanoelectromechanical systems
Specific Detail Info
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Statement of Responsibility
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