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Books in Semiconductor physics

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11-20 of 65 results in All results

Silicon-On-Insulator (SOI) Technology

  • 1st Edition
  • June 5, 2014
  • O. Kononchuk + 1 more
  • English
  • Hardback
    9 7 8 - 0 - 8 5 7 0 9 - 5 2 6 - 8
  • eBook
    9 7 8 - 0 - 8 5 7 0 9 - 9 2 5 - 9
Silicon-On-Insulator (SOI) Technology: Manufacture and Applications covers SOI transistors and circuits, manufacture, and reliability. The book also looks at applications such as memory, power devices, and photonics. The book is divided into two parts; part one covers SOI materials and manufacture, while part two covers SOI devices and applications. The book begins with chapters that introduce techniques for manufacturing SOI wafer technology, the electrical properties of advanced SOI materials, and modeling short-channel SOI semiconductor transistors. Both partially depleted and fully depleted SOI technologies are considered. Chapters 6 and 7 concern junctionless and fin-on-oxide field effect transistors. The challenges of variability and electrostatic discharge in CMOS devices are also addressed. Part two covers recent and established technologies. These include SOI transistors for radio frequency applications, SOI CMOS circuits for ultralow-power applications, and improving device performance by using 3D integration of SOI integrated circuits. Finally, chapters 13 and 14 consider SOI technology for photonic integrated circuits and for micro-electromechanical systems and nano-electromechanical sensors. The extensive coverage provided by Silicon-On-Insulator (SOI) Technology makes the book a central resource for those working in the semiconductor industry, for circuit design engineers, and for academics. It is also important for electrical engineers in the automotive and consumer electronics sectors.

Semiconducting Silicon Nanowires for Biomedical Applications

  • 1st Edition
  • February 4, 2014
  • Jeffery L. Coffer
  • English
  • eBook
    9 7 8 - 0 - 8 5 7 0 9 - 7 7 1 - 2
Biomedical applications have benefited greatly from the increasing interest and research into semiconducting silicon nanowires. Semiconducting Silicon Nanowires for Biomedical Applications reviews the fabrication, properties, and applications of this emerging material. The book begins by reviewing the basics, as well as the growth, characterization, biocompatibility, and surface modification, of semiconducting silicon nanowires. It goes on to focus on silicon nanowires for tissue engineering and delivery applications, including cellular binding and internalization, orthopedic tissue scaffolds, mediated differentiation of stem cells, and silicon nanoneedles for drug delivery. Finally, it highlights the use of silicon nanowires for detection and sensing. These chapters explore the fabrication and use of semiconducting silicon nanowire arrays for high-throughput screening in the biosciences, neural cell pinning on surfaces, and probe-free platforms for biosensing. Semiconducting Silicon Nanowires for Biomedical Applications is a comprehensive resource for biomaterials scientists who are focused on biosensors, drug delivery, and tissue engineering, and researchers and developers in industry and academia who are concerned with nanoscale biomaterials, in particular electronically-responsive biomaterials.

Nanostructured Semiconductor Oxides for the Next Generation of Electronics and Functional Devices

  • 1st Edition
  • December 13, 2013
  • Serge Zhuiykov
  • English
  • eBook
    9 7 8 - 1 - 7 8 2 4 2 - 2 2 4 - 2
Nanostructured Semiconductor Oxides for the Next Generation of Electronics and Functional Devices focuses on the development of semiconductor nanocrystals, their technologies and applications, including energy harvesting, solar cells, solid oxide fuel cells, and chemical sensors. Semiconductor oxides are used in electronics, optics, catalysts, sensors, and other functional devices. In their 2D form, the reduction in size confers exceptional properties, useful for creating faster electronics and more efficient catalysts. After explaining the physics affecting the conductivity and electron arrangement of nanostructured semiconductors, the book addresses the structural and chemical modification of semiconductor nanocrystals during material growth. It then covers their use in nanoscale functional devices, particularly in electronic devices and carbon nanotubes. It explores the impact of 2D nanocrystals, such as graphene, chalcogenides, and oxide nanostructures, on research and technology, leading to a discussion of incorporating graphene and semiconductor nanostructures into composites for use in energy storage. The final three chapters focus on the applications of these functional materials in photovoltaic cells, solid oxide fuel cells, and in environmental sensors including pH, dissolved oxygen, dissolved organic carbon, and dissolved metal ion sensors. Nanostructured Semiconductor Oxides for the Next Generation of Electronics and Functional Devices is a crucial resource for scientists, applied researchers, and production engineers working in the fabrication, design, testing, characterization, and analysis of new semiconductor materials. This book is a valuable reference for those working in the analysis and characterization of new nanomaterials, and for those who develop technologies for practical devices fabrication.

Festkörper Probleme IX

  • 1st Edition
  • October 22, 2013
  • O. Madelung
  • English
  • eBook
    9 7 8 - 1 - 4 8 3 1 - 4 5 9 1 - 4
Festkörper Probleme IX: Advances in Solid State Physics presents a model for the behavior of electrons in non-crystalline materials. This book describes some experimental evidence that supports for the behavior of electrons. Organized into 16 chapters, this book begins with an overview of crystallization, glass forming, and melting processes in systems forming chalcogenide glasses. This text then describes the theory of the transport properties of electrons in non-crystalline solids and liquids. Other chapters consider the optical and electrical properties of amorphous semiconductors wherein the treatment is mainly restricted to the elements selenium, germanium, and tellurium. This book discusses as well the basic aspects of the optical phenomena of the Jahn–Teller effect, with emphasis on some criteria of the strength and observability of the Jahn–Teller effect. The final chapter deals with the methods for processing emulsion and metal film masks. This book is a valuable resource for solid state physicists.

Compound Semiconductor Device Physics

  • 1st Edition
  • October 22, 2013
  • Sandip Tiwari
  • English
  • eBook
    9 7 8 - 1 - 4 8 3 2 - 8 9 2 9 - 8
This book provides one of the most rigorous treatments of compound semiconductor device physics yet published. A complete understanding of modern devices requires a working knowledge of low-dimensional physics, the use of statistical methods, and the use of one-, two-, and three-dimensional analytical and numerical analysis techniques. With its systematic and detailed**discussion of these topics, this book is ideal for both the researcher and the student. Although the emphasis of this text is on compound semiconductor devices, many of the principles discussed will also be useful to those interested in silicon devices. Each chapter ends with exercises that have been designed to reinforce concepts, to complement arguments or derivations, and to emphasize the nature of approximations by critically evaluating realistic conditions.

Passivity of Metals and Semiconductors

  • 1st Edition
  • September 3, 2013
  • Michel Froment
  • English
  • eBook
    9 7 8 - 1 - 4 8 3 1 - 0 2 6 2 - 7
Passivity of Metals and Semiconductors covers the proceedings of the Fifth International Symposium on Passivity, held in Bombannes, France on May30 - June3, 1983. The said symposium is concerned with passivity of metallic materials, localized corrosion, experimental techniques, and classical techniques such as optical techniques and electron spectroscopy. The book is divided into five sections. Section I deals with the concepts involved in the composition-transport phenomena and covers topics such as the transport of oxygen and water in oxide layers; the kinetics of oxidation of silicon; and the oxidation rate laws of metals that form nonstoichiometric oxides. Section II covers related techniques and their specific applications such as study of passivity of iron by in situ methods; optical methods in the study of passive films; and the analysis of multiple layer surface films by modulated reflection spectroscopy. Section III tackles amorphous metals - their passivity, their depassivation and repassivation in localized corrosion, and a comparison of models for localized breakdown of passivity. Part IV discusses the photoelectrochemistry of semiconductors; Part V tackles passivation and localized corrosion of stainless steels. The text is recommended for organic chemists, metallurgists, and engineers who would like to know more about the passivity of metals and their applications in different fields.

Semiconductor Gas Sensors

  • 1st Edition
  • August 31, 2013
  • Raivo Jaaniso + 1 more
  • English
  • Hardback
    9 7 8 - 0 - 8 5 7 0 9 - 2 3 6 - 6
  • eBook
    9 7 8 - 0 - 8 5 7 0 9 - 8 6 6 - 5
Semiconductor gas sensors have a wide range of applications in safety, process control, environmental monitoring, indoor or cabin air quality and medical diagnosis. This important book summarises recent research on basic principles, new materials and emerging technologies in this essential field.The first part of the book reviews the underlying principles and sensing mechanisms for n- and p-type oxide semiconductors, introduces the theory for nanosize materials and describes the role of electrode–semiconductor interfaces. The second part of the book describes recent developments in silicon carbide- and graphene-based gas sensors, wide bandgap semiconductor gas sensors and micromachined and direct thermoelectric gas sensors. Part 3 discusses the use of nanomaterials for gas sensing, including metal oxide nanostructures, quantum dots, single-alled carbon nanotubes and porous silicon. The final part of the book surveys key applications in environmental monitoring, detecting chemical warfare agents and monitoring gases such as carbon dioxide.Semiconductor gas sensors is a valuable reference work for all those involved in gas monitoring, including those in the building industry, environmental engineers, defence and security specialists and researchers in this field.

Semiconductor Lasers

  • 1st Edition
  • April 23, 2013
  • Alexei Baranov + 1 more
  • English
  • Hardback
    9 7 8 - 0 - 8 5 7 0 9 - 1 2 1 - 5
  • eBook
    9 7 8 - 0 - 8 5 7 0 9 - 6 4 0 - 1
Semiconductor lasers have important applications in numerous fields, including engineering, biology, chemistry and medicine. They form the backbone of the optical telecommunications infrastructure supporting the internet, and are used in information storage devices, bar-code scanners, laser printers and many other everyday products. Semiconductor lasers: Fundamentals and applications is a comprehensive review of this vital technology.Part one introduces the fundamentals of semiconductor lasers, beginning with key principles before going on to discuss photonic crystal lasers, high power semiconductor lasers and laser beams, and the use of semiconductor lasers in ultrafast pulse generation. Part two then reviews applications of visible and near-infrared emitting lasers. Nonpolar and semipolar GaN-based lasers, advanced self-assembled InAs quantum dot lasers and vertical cavity surface emitting lasers are all considered, in addition to semiconductor disk and hybrid silicon lasers. Finally, applications of mid- and far-infrared emitting lasers are the focus of part three. Topics covered include GaSb-based type I quantum well diode lasers, interband cascade and terahertz quantum cascade lasers, whispering gallery mode lasers and tunable mid-infrared laser absorption spectroscopy.With its distinguished editors and international team of expert contributors, Semiconductor lasers is a valuable guide for all those involved in the design, operation and application of these important lasers, including laser and telecommunications engineers, scientists working in biology and chemistry, medical practitioners, and academics working in this field.

Semiconducting Ore Minerals

  • 1st Edition
  • December 2, 2012
  • R Shuey
  • English
  • eBook
    9 7 8 - 0 - 4 4 4 - 6 0 1 4 2 - 1
Developments in Economic Geology, 4: Semiconducting Ore Minerals provides a comprehensive discussion of the semiconductor physics of ore minerals, which is a specialized field that is interdisciplinary to materials science and earth science. The book is organized into four parts. Part I deals with basic principles such as the electronic structure of solids; electrical conduction in semiconductors; and various crystal properties which, like conductivity, depend primarily upon the electronic structure. It also discusses theoretical and experimental investigations pertinent to complex electrical inhomogeneity. Part 2 examines the properties of elements such as bismuth, copper, and graphite. Part 3 deals with sulfides including arsenopyrite, bornite, chalcocite, chalcopyrite, covellite, molybdenite, pyrrhotite, and sphalerite. Part 4 covers oxides, including cassiterite, cuprite, hematite, magnetite, pyrolusite, and rutile. This book may be a useful reference for those involved with research on ore minerals, including geophysicists, geochemists, or extractive metallurgists.

Physical Acoustics V4A

  • 1st Edition
  • November 14, 2012
  • Warren P. Mason
  • English
  • eBook
    9 7 8 - 0 - 3 2 3 - 1 5 1 5 7 - 3
Physical Acoustics: Principles and Methods, Volume IV, Part A: Applications to Quantum and Solid State Physics provides an introduction for the various applications of quantum mechanics to acoustics by describing several processes for which such considerations are essential. This book explores the magnetic fields applied to metals in the normal state, which have the effect of localizing the interaction between the acoustic waves and the electrons to specific parts of the Fermi surface. Organized into nine chapters, this volume starts with an overview of the transmission of sound waves in semiconducting crystals that are piezoelectric. This text then examines the reactions of nonpiezoelectric semiconductors with electrons through the deformation potential that changes the shape of the Fermi surface. Other chapters consider the amplification of acoustic waves in semiconductors by the application of an electric field. The final chapter examines how measurements can delineate the Fermi surface of monovalent metals. Physicists and engineers will find this book useful.