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This volume covers five emerging areas of advanced device technology: wide band gap devices, terahertz and millimeter waves, nanometer silicon and silicon-germanium devices, nanoelectronics and ballistic devices, and the characterization of advanced photonic and electronic devices. The papers by leading researchers in high speed and advanced electronic and photonic technology presented many “firsts” and breakthrough results, as has become a tradition with the Lester Eastman Conference, and will allow readers to obtain up-to-date information about emerging trends and future directions of these technologies. Key papers in each section present snap-shot and mini reviews of state-of-the-art and “hot off the press” results making the book required reading for engineers, scientists, and students working on advanced and high speed device technology.
This volume covers five emerging areas of advanced device technology: wide band gap devices, terahertz and millimeter waves, nanometer silicon and silicon-germanium devices, nanoelectronics and ballistic devices, and the characterization of advanced photonic and electronic devices. The papers by leading researchers in high speed and advanced electronic and photonic technology presented many firsts and breakthrough results, as has become a tradition with the Lester Eastman Conference, and will allow readers to obtain up-to-date information about emerging trends and future directions of these technologies. Key papers in each section present snap-shot and mini reviews of state-of-the-art and hot off the press results making the book required reading for engineers, scientists, and students working on advanced and high speed device technology.
Physics and Modeling of Tera- and Nano-Devices is a compilation of papers by well-respected researchers working in the field of physics and modeling of novel electronic and optoelectronic devices. The topics covered include devices based on carbon nanotubes, generation and detection of terahertz radiation in semiconductor structures including terahertz plasma oscillations and instabilities, terahertz photomixing in semiconductor heterostructures, spin and microwave-induced phenomena in low-dimensional systems, and various computational aspects of device modeling. Researchers as well as graduate and postgraduate students working in this field will benefit from reading this book. Sample Chapter(s). Semiconductor Device Scaling: Physics, Transport, and the Role of Nanowires (784 KB). Contents: Semiconductor Device Scaling: Physics, Transport, and the Role of Nanowires (D K Ferry et al.); Polaronic Effects at the Field Effect Junctions for Unconventional Semiconductors (N Kirova); Cellular Monte Carlo Simulation of High Field Transport in Semiconductor Devices (S M Goodnick & M Saraniti); Nanoelectronic Device Simulation Based on the Wigner Function Formalism (H Kosina); Quantum Simulations of Dual Gate MOSFET Devices: Building and Deploying Community Nanotechnology Software Tools on nanoHUB.org (S Ahmed et al.); Positive Magneto-Resistance in a Point Contact: Possible Manifestation of Interactions (V T Renard et al.); Impact of Intrinsic Parameter Fluctuations in Nano-CMOS Devices on Circuits and Systems (S Roy et al.); HEMT-Based Nanometer Devices Toward Terahertz Era (E Sano & T Otsuji); Plasma Waves in Two-Dimensional Electron Systems and Their Applications (V Ryzhii et al.); Resonant Terahertz Detection Antenna Utilizing Plasma Oscillations in Lateral Schottky Diode (A Satou et al.); Terahertz Polarization Controller Based on Electronic Dispersion Control of 2D Plasmons (T Nishimura & T Otsuji); Higher-Order Plasmon Resonances in GaN-Based Field-Effect Transistor Arrays (V V Popov et al.); Ultra-Highly Sensitive Terahertz Detection Using Carbon-Nanotube Quantum Dots (Y Kawano et al.); Generation of Ultrashort Electron Bunches in Nanostructures by Femtosecond Laser Pulses (A Gladun et al.); Characterization of Voltage-Controlled Oscillator Using RTD Transmission Line (K Narahara et al.); Infrared Quantum-Dot Detectors with Diffusion-Limited Capture (N Vagidov et al.); Magnetoresistance in Fe/MgO/Fe Magentic Tunnel Junctions (N N Beleskii et al.); Modeling and Implementation of Spin-Based Quantum Computation (M E Hawley et al.); Quantum Engineering for Threat Reduction and Homeland Security (G P Berman et al.); Strong Phase Shift Mask Manufacturing Error Impact on the 65nm Poly Line Printability (N Belova). Readership: Academics, graduate and postgraduate students in the field of physics and modeling of novel electronics and optoelectronic devices.
The inherent advantages and potential payoffs of the terahertz (THz) regime for military and security applications serve as an important driver for interest in new THz-related science and technology. In particular, the very rapid growth in more recent years is arguably most closely linked to the potential payoffs of THz sensing and imaging (THz-S&I).This book presents some of the leading fundamental research efforts towards the realization of practical THz-S&I capabilities for military and security applications. Relevant subjects include theoretical prediction and/or measurement of THz spectroscopic phenomenon in solid-state materials such as high explosives (e.g. HMX, PETN, RDX, TNT, etc.), carbon-fiber composites, biological agents (e.g. DNA, RNA, proteins, amino acids) and organic-semiconductor nanostructures. Individual papers also address the effective utilization of state-of-the-art THz-frequency technology in military and security relevant scenarios such as standoff S&I, screening of packages and personnel, and perimeter defense. Technical papers introduce novel devices and/or concepts that enhance THz source and detector performance, enabling completely new types of sensor functionality at THz frequency (e.g. detection at nanoscale/molecular levels), and defining new and innovative sensing modalities (e.g. remote personnel identification) for defense and security. Therefore, the collective research presented here represents a valuable source of information on the evolving field of THz-S&I for military and security applications.
This book provides unique perspectives on both state-of-the-art hyperspectral techniques for the early-warning monitoring of water supplies against chemical, biological and radiological (CBR) contamination effects as well as the emerging spectroscopic science and technology base that will be used to support an array of CBR defense and security applications in the future. The technical content in this book lends itself to the non-traditional requirements for point and stand-off detection that have evolved out of the US joint services programs over many years. In particular, the scientific and technological work presented seeks to enable hyperspectral-based sensing and monitoring that is real-time; in-line; low in cost and labor; and easy to support, maintain and use in military- and security-relevant scenarios.
This book provides unique perspectives on the state of the art in multispectral/hyperspectral techniques for early-warning monitoring against chemical, biological and radiological (CB&R) contamination of both surface (e.g. land) and air (e.g. atmospheric) environments through the presentation of a comprehensive survey of the novel spectroscopic methodologies and technologies that are emerging to address the CB&R defense and security challenges of the future. The technical content in this book lends itself to the non-traditional requirements for point and stand-off detection that have evolved out of the US joint services programs over many years. In particular, the scientific and technological work presented seeks to enable hyperspectral-based sensing and monitoring that is in real time and in-line; low in cost and labor requirements; and easy to support, maintain and use in military and security-relevant scenarios.
This book consists of four chapters to address at different modeling levels for different nanoscale MOS structures (Single- and Multi-Gate MOSFETs). The collection of these chapters in the book are attempted to provide a comprehensive coverage on the different levels of electrostatics and transport modeling for these devices, and relationships between them. In particular, the issue of quantum transport approaches, analytical predictive 2D/3D modeling and design-oriented compact modeling. It should be of interests to researchers working on modeling at any level, to provide them with a clear explanation of theapproaches used and the links with modeling techniques for either higher or lower levels.
Frontiers in Electronics is divided into four sections: advanced terahertz and photonics devices; silicon and germanium on insulator and advanced CMOS and MOSHFETs; nanomaterials and nanodevices; and wide band gap technology for high power and UV photonics. This book will be useful for nano-microelectronics scientists, engineers, and visionary research leaders. It is also recommended to graduate students working at the frontiers of the nanoelectronics and microscience.