Transport Properties of a Quantum Dot Modulation-doped Field-effect Transistor
Author : N. S. Beattie
Publisher :
Page : pages
File Size : 11,22 MB
Release : 2005
Category :
ISBN :
New Quantum Dot Transistor
Author : V. G. Mokerov
Publisher :
Page : 4 pages
File Size : 17,26 MB
Release : 2001
Category :
ISBN :
Book Description
Modulation doped N-AlGaAs/GaAs/InAs/GaAs/InAs/GaAs heterosturtures with InAs-quantum dots in device channel have been grown and investigated. Their photoluminescence spectra and electrical transport properties both in low and high electric fields were studied. Using these structures modulation doped FET's have been fabricated and analyzed. It was demonstrated that the quantum dot FET's present the new type of the hot electron devices promising for high speed applications.
Modulation Doped Field Effect Transistors for Microwave Device Applications
Author : Norman C. Tien
Publisher :
Page : 282 pages
File Size : 23,80 MB
Release : 1993
Category :
ISBN :
Book Description
Quantum Semiconductor Devices and Technologies
Author : Tom Pearsall
Publisher : Springer Science & Business Media
Page : 270 pages
File Size : 46,82 MB
Release : 2013-11-27
Category : Technology & Engineering
ISBN : 1461544513
Book Description
stacked QD structure and is useful for examining the possibility of all optical measurement of stacked QD layers. Optical absorption spectra of self-assembled QDs has been little reported, and further investigation in necessary to study hole-burning memory. 2.5 Summary This chapter describes recent advances in quantum dot fabrication tech nologies, focusing on our self-formed quantum dot technologies including TSR quantum dots and SK-mode self-assembled quantum dots. As is described in this chapter, there are many possible device applications such as quantum dot tunneling memory devices, quantum dot fioating-dot gate FETs, quantum dot lasers, and quantum dot hole-burning memory devices. The quantum dot laser applications seem to be the most practicable among these applications. However, many problems remain to be solved before even this application becomes practical. The most important issue is to of self-assembled quantum dots more pre control the size and position cisely, with an accuracy on an atomic scale. The confinement must be enough to keep the separation energy between quantized energy levels high enough to get high-temperature characteristics. The lasing oscillation frequency should be fixed at 1.3 f.lITl or 1.5 f.lITl for optical communication. Phonon bottleneck problems should be solved by the optimization of device structures. Fortunately, there is much activity in the area of quantum dot lasers and, therefore, many breakthroughs will be made, along with the exploration of other new application areas.
Physics of Semiconductor Devices
Author : Vikram Kumar
Publisher :
Page : 808 pages
File Size : 11,71 MB
Release : 2002
Category : Semiconductors
ISBN : 9780819445001
Book Description
Modulation-doped Field-effect Transistors
Author : Heinrich Daembkes
Publisher : Institute of Electrical & Electronics Engineers(IEEE)
Page : 544 pages
File Size : 32,95 MB
Release : 1991
Category : Technology & Engineering
ISBN :
Book Description
Digest
Author :
Publisher :
Page : 164 pages
File Size : 19,36 MB
Release : 1998
Category : Integrated circuits
ISBN :
Book Description
Handbook of Crystal Growth
Author : Tom Kuech
Publisher : Elsevier
Page : 1384 pages
File Size : 14,4 MB
Release : 2014-11-02
Category : Science
ISBN : 0444633057
Book Description
Volume IIIA Basic Techniques Handbook of Crystal Growth, Second Edition Volume IIIA (Basic Techniques), edited by chemical and biological engineering expert Thomas F. Kuech, presents the underpinning science and technology associated with epitaxial growth as well as highlighting many of the chief and burgeoning areas for epitaxial growth. Volume IIIA focuses on major growth techniques which are used both in the scientific investigation of crystal growth processes and commercial development of advanced epitaxial structures. Techniques based on vacuum deposition, vapor phase epitaxy, and liquid and solid phase epitaxy are presented along with new techniques for the development of three-dimensional nano-and micro-structures. Volume IIIB Materials, Processes, and Technology Handbook of Crystal Growth, Second Edition Volume IIIB (Materials, Processes, and Technology), edited by chemical and biological engineering expert Thomas F. Kuech, describes both specific techniques for epitaxial growth as well as an array of materials-specific growth processes. The volume begins by presenting variations on epitaxial growth process where the kinetic processes are used to develop new types of materials at low temperatures. Optical and physical characterizations of epitaxial films are discussed for both in situ and exit to characterization of epitaxial materials. The remainder of the volume presents both the epitaxial growth processes associated with key technology materials as well as unique structures such as monolayer and two dimensional materials. Volume IIIA Basic Techniques Provides an introduction to the chief epitaxial growth processes and the underpinning scientific concepts used to understand and develop new processes. Presents new techniques and technologies for the development of three-dimensional structures such as quantum dots, nano-wires, rods and patterned growth Introduces and utilizes basic concepts of thermodynamics, transport, and a wide cross-section of kinetic processes which form the atomic level text of growth process Volume IIIB Materials, Processes, and Technology Describes atomic level epitaxial deposition and other low temperature growth techniques Presents both the development of thermal and lattice mismatched streams as the techniques used to characterize the structural properties of these materials Presents in-depth discussion of the epitaxial growth techniques associated with silicone silicone-based materials, compound semiconductors, semiconducting nitrides, and refractory materials
Electrical & Electronics Abstracts
Author :
Publisher :
Page : 2240 pages
File Size : 11,39 MB
Release : 1997
Category : Electrical engineering
ISBN :
Book Description
Physics of Semiconductors and Nanostructures
Author : Jyoti Prasad Banerjee
Publisher : CRC Press
Page : 412 pages
File Size : 46,33 MB
Release : 2019-06-11
Category : Science
ISBN : 1482223058
Book Description
This book is a comprehensive text on the physics of semiconductors and nanostructures for a large spectrum of students at the final undergraduate level studying physics, material science and electronics engineering. It offers introductory and advanced courses on solid state and semiconductor physics on one hand and the physics of low dimensional semiconductor structures on the other in a single text book. Key Features Presents basic concepts of quantum theory, solid state physics, semiconductors, and quantum nanostructures such as quantum well, quantum wire, quantum dot and superlattice In depth description of semiconductor heterojunctions, lattice strain and modulation doping technique Covers transport in nanostructures under an electric and magnetic field with the topics: quantized conductance, Coulomb blockade, and integer and fractional quantum Hall effect Presents the optical processes in nanostructures under a magnetic field Includes illustrative problems with hints for solutions in each chapter Physics of Semiconductors and Nanostructures will be helpful to students initiating PhD work in the field of semiconductor nanostructures and devices. It follows a unique tutorial approach meeting the requirements of students who find learning the concepts difficult and want to study from a physical perspective.
