Condensed matter physics Books

Book SynopsisThis comprehensive handbook has become the definitive reference work in the field of nanoscience and nanotechnology, and this 4th edition incorporates a number of recent new developments. It integrates nanofabrication, nanomaterials, nanodevices, nanomechanics, nanotribology, materials science, and reliability engineering knowledge in just one volume. Furthermore, it discusses various nanostructures; micro/nanofabrication; micro/nanodevices and biomicro/nanodevices, as well as scanning probe microscopy; nanotribology and nanomechanics; molecularly thick films; industrial applications and nanodevice reliability; societal, environmental, health and safety issues; and nanotechnology education. In this new edition, written by an international team of over 140 distinguished experts and put together by an experienced editor with a comprehensive understanding of the field, almost all the chapters are either new or substantially revised and expanded, with new topics of interest added. It is an essential resource for anyone working in the rapidly evolving field of key technology, including mechanical and electrical engineers, materials scientists, physicists, and chemists.Table of ContentsIntroduction to Nanotechnology.- Molecule-Based Devices.- Introduction to Micro-/Nanofabrication.- Three-Dimensional Nanostructure fabrication by Focused-Ion Beam, Electron Beam and Laser Beam.- Nanoimprint Lithography.- Stamping Techniques for Micro- and Nanofabrication.- Materials Aspects of Micro-and Nanoelectromechanical Systems.- Introduction to Carbon Nanotubes.- Nanowires.- Nanoribbons.- Nanoparticles and Applications in Nanotechnology.- Graphene.- MEMS/NEMS Devices and Applications.- Single-Walled Carbon Nanotube Sensor Concepts.- Nanomechanical Cantilever Array Sensors.- Microfluidic Devices and their Applications.- Microfluidic Micro/Nano Droplets.- Nanorobotics.- Applications of MEMS to Cell Biology.- Contact-free Mechanical Manipulation of Biological Materials.- Nano-Particles for Biomedical Applications.- Biological Molecules in Therapeutic Nanodevices.- Scanning Probe Microscopy - Principle of Operation, Instrumentation and Probes.- Low-Temperature Scanning Probe Microscopy.- Biomedical Sensing with the Atomic Force Microscope.- Superresolution Microscopy.- Nanotribology, Nanomechanics and Materials Characterization.- Surface forces and nanorheology of molecularly thin films.- Atomic Scale Friction Phenomena.- Computer Simulations of Nanometer-Scale Indentation and Friction.- Cellular Nanomechanics.- Mechanical Properties of Nanostructures and Scale Effects.- Nanotribology of Ultrathin and Hard Amorphous Carbon Films.- Self-Assembled Monolayers for Nanotribology and Surface Protection.- Nanoscale Boundary Lubrication Studies.- Plant Surfaces: Structures and Functions for Biomimetic Applications.- Bioinspired Nanostructured Anti-Biofouling and Anti-inorganic Surfaces.- MEMS/NEMS and BioMEMS/BioNEMS: Tribology, Mechanics, Materials and Devices.- Friction and Wear in Micro and Nanomachines.- Failure Mechanisms in MEMS/NEMS Devices.- Mechanical Properties of Micromachined Structures.- High Volume Manufacturing and Field Stability of MEMS Products.- Packaging and Reliability Issues in Micro/Nano Systems.- Nanotechnologies in Societal Context.- Environment, Health and Safety Issues in Nanotechnology.- Nanoscience and Nanotechnology Convergence.- Global Perspectives of Nanotechnology Education.

Read more less

Book SynopsisThis book fills a gap between many of the basic solid state physics and materials sciencebooks that are currently available. It is written for a mixed audience of electricalengineering and applied physics students who have some knowledge of elementaryundergraduate quantum mechanics and statistical mechanics. This book, based on asuccessful course taught at MIT, is divided pedagogically into three parts: (I) ElectronicStructure, (II) Transport Properties, and (III) Optical Properties. Each topic is explainedin the context of bulk materials and then extended to low-dimensional materials whereapplicable. Problem sets review the content of each chapter to help students to understandthe material described in each of the chapters more deeply and to prepare them to masterthe next chapters.Table of ContentsCrystal Lattices in Real and Reciprocal Space.- Electronic Properties of Solids.- Weak and Tight Binding Approximations for Simple Solid State Models.- Examples of Energy Bands in Solids.- Effective Mass Theory.- Lattice Vibrations.- Basic Transport Phenomena.- Thermal Transport.- Electron and Phonon Scattering.- Magneto-transport Phenomena.- Transport in Low Dimensional Systems.- Two Dimensional Electron Gas, Quantum Wells & Semiconductor Superlattices.- Magneto-Oscillatory and Other Effects Associated with Landau Levels.- The Quantum Hall Effect (QHE).- Review of Fundamental Relations for Optical Phenomena.- Drude Theory–Free Carrier Contribution to the Optical Properties.- Interband Transitions.- Absorption of Light in Solids.- Optical Properties of Solids Over a Wide Frequency Range.- Impurities and Excitons.- Luminescence and Photoconductivity.- Optical Study of Lattice Vibrations.

Read more less

Book SynopsisThe present volume 2 covers advanced topics in theoretical solid state physics and thus ties in directly with the fundamentals. Solids in external fields or more generally in non-equilibrium and deviations from the ideal 3-dimensional crystal structure (surfaces, impurities, low-dimensional structures, quantum dots, etc.) are treated. The consideration of collective phenomena such as superconductivity and magnetism complete the presentation. The reader is assumed to have the contents of Volume 1 (electrons and phonons in ideal crystals, Bloch theorem, population number representation or 2nd quantization, electron-electron and electron-phonon interaction) as well as the basic knowledge of general theoretical physics (mechanics, electrodynamics, quantum mechanics, and statistical physics) usually available after a bachelor's degree in physics. Volume 2 is thus ideally suited for students in the master's program in physics who wish to specialize in (experimental or theoretical) solid-state physics. Addressing current topics (e.g., Kondo effect, fractional quantum Hall effect, 2-dimensional crystals such as graphene, giant magnetoresistance effect, and others) provides an optimal transition to modern research.The new edition has been completely revised, expanded with numerous exercises and existing redesigned, with the associated solutions now included in the book.Table of ContentsElectronic transport in solids.- Optical (or dielectric) properties of solids.- Deviations from the ideal, three-dimensional crystal structure.- Solids in the external magnetic field.- Superconductivity.- Collective magnetism.- Solutions to the exercise problems.

Read more less

Book SynopsisThis book contains a unique survey of the mathematically rigorous results about the quantum-mechanical many-body problem that have been obtained by the authors in the past seven years. It addresses a topic that is not only rich mathematically, using a large variety of techniques in mathematical analysis, but is also one with strong ties to current experiments on ultra-cold Bose gases and Bose-Einstein condensation. The book provides a pedagogical entry into an active area of ongoing research for both graduate students and researchers. It is an outgrowth of a course given by the authors for graduate students and post-doctoral researchers at the Oberwolfach Research Institute in 2004. The book also provides a coherent summary of the field and a reference for mathematicians and physicists active in research on quantum mechanics.Trade Review"The presentation provides significant insight into a large part of the current issues of interest in the physics of Bose systems and especially into the "kitchen" of several relevant mathematical techniques. As such, it is highly recommended to both advanced researchers and students preparing to work in this field." (Mathematical Reviews)Table of ContentsThe Dilute Bose Gas in 3D.- The Dilute Bose Gas in 2D.- Generalized Poincaré Inequalities.- Bose-Einstein Condensation and Superfluidity for Homogeneous Gases.- Gross-Pitaevskii Equation for Trapped Bosons.- Bose-Einstein Condensation and Superfluidity for Dilute Trapped Gases.- One-Dimensional Behavior of Dilute Bose Gases in Traps.- Two-Dimensional Behavior in Disc-Shaped Traps.- The Charged Bose Gas, the One- and Two-Component Cases.- Bose-Einstein Quantum Phase Transition in an Optical Lattice Model.

Read more less

Book SynopsisThis book provides a theoretical, step-by-step comprehensive explanation of superconductivity for undergraduate and graduate students who have completed elementary courses on thermodynamics and quantum mechanics. To this end, it adopts the unique approach of starting with the statistical mechanics of quantum ideal gases and successively adding and clarifying elements and techniques indispensible for understanding it. They include the spin-statistics theorem, second quantization, density matrices, the Bloch–De Dominicis theorem, the variational principle in statistical mechanics, attractive interaction and bound states. Ample examples of their usage are also provided in terms of topics from advanced statistical mechanics such as two-particle correlations of quantum ideal gases, derivation of the Hartree–Fock equations, and Landau’s Fermi-liquid theory, among others. With these preliminaries, the fundamental mean-field equations of superconductivity are derived with maximum mathematical clarity based on a coherent state in terms of the Cooper-pair creation operator, a quasiparticle field for describing the excitation and the variational principle in statistical mechanics. They have the advantage that the phase coherence due to the Cooper-pair condensation can be clearly seen making the superfluidity comprehensible naturally. Subsequently, they are applied to homogeneous cases to describe the BCS theory for classic s-wave superconductors and its extension to the p-wave superfluidity of 3He. Later, the mean-field equations are simplified to the Eilenberger and Ginzburg–Landau equations so as to describe inhomogeneous superconductivity such as Abrikosov’s flux-line lattice concisely and transparently. Chapters provide the latest studies on the quasiclassical theory of superconductivity and a discovery of p-wave superfluidity in liquid 3He. The book serves as a standard reference for advanced courses of statistical mechanics with exercises along with detailed answers.Table of ContentsReview of Thermodynamics.- Basics of Equilibrium Statistical Mechanics.- Quantum Mechanics of Identical Particles.- Statistical Mechanics of Ideal Gases.- Density Matrices and Two-Particle Correlations.- Hartree–Fock Equations and Landau’s Fermi-liquid theory.- Attractive Interaction and Bound States.- Mean-Field Equations of Superconductivity.- BCS Theory.- Superfluidity, Meissner Effect, and Flux Quantization.- Responses to External Perturbations.- Tunneling, Density of States, and Josephson Effect.- P-Wave Superfluidity.- Gor’kov, Eilenberger, and Ginzburg–Landau Equations.- Abrikosov’s Flux-Line Lattice.- Surfaces and Vortex Cores.- Solutions to Problems.

Read more less

Book SynopsisIl testo si configura come un' introduzione alla fisica statistica rivolto in primo luogo a quei corsi di studio in ingegneria che più hanno a che fare con le proprietà fisiche dei materiali, ed ha lo scopo di fornire le basi microscopiche del comportamento termodinamico di cui si fa uso sia in molti corsi tradizionali, quali quelli di termofluidica d'interesse per l'ingegneria chimica e nucleare, che in corsi rivolti ad applicazioni avanzate nella scienza dei materiali e nelle nanotecnologie. Particolare attenzione viene quindi dedicata all'impiego di metodi di fisica statistica nella scienza dei materiali, approfondendo tematiche relative alle vibrazioni nei solidi, ai processi di nucleazione liquido/vapore, alla struttura dello stato fluido e vetroso, ai plasmi, ai materiali magnetici, al gas di Fermi e alla superfluidità. Per il suo carattere generale, e per l'accento posto sui fondamenti della meccanica quantistica, il volume si presta comunque a costituire anche un testo introduttivo alla meccanica statistica per studenti dei corsi di laurea in fisica.Trade ReviewFrom the reviews:“The book covers the main typical arguments of a course on statistical physics and thermodynamics in the Italian university system. … the author intends to transmit to the readers: the subject of statistical physics is not only useful, but is also far to be boring and can reveal an intrinsic beauty. Also, the style of writing the different chapters reveals the intention of the author to give a pleasant environment for the study of the subject.” (Francesco Salvarani, Zentralblatt MATH, Vol. 1241, 2012)

Read more less

Book SynopsisThe subject of the present thesis is a study on bipolaron formation in heavily doped and polar materials. The study is applied to the physics of superconducting compounds with high transition temperature. In particular this thesis addresses the problem of the formation and superconducting properties of real space electron (hole) pairs in these systems and their dependence on the carrier density. The pairing mechanism results from the dynamical cooperation of photonic and electronic degrees of freedom which characterize the heavily doped polar material. We call these pairs biplasmapolarons (BBP) because they can be thought as quasi-particles composed by two electrons (holes) and their cloud of virtual photons and plasmons. In the present work we extend the theory to the calculation of both BPP binding energy and effective mass and we discuss the features of the effective electron-electron interaction.

Read more less

Book SynopsisThe experimental achievement of Bose-Einstein condensation (1995) and of Fermi degeneracy (1999) in ultra-cold, dilute gases has opened a new field in atomic physics and condensed matter physics. This thesis presents an overview of theoretical and experimental facts on ultra-cold atomic gases. A Green's function scheme is examined, and the book also applies a novel spin-density-functional approach to the study of Fermi gases inside one-dimensional optical lattices.Table of ContentsPreface.- 1. Reviews on Ultra-cold quantum gases.- 2. Theory of matter transport in quasi-1D arrays.- 3. Density-functional theory of 1D Fermi gases.- 4. Ultra-cold attractive fermions in 1D optical lattices.

Read more less

Book Synopsis​This book presents a compact personal biography and a collection of works by Gabriele F. Giuliani - a distinguished condensed matter theorist who made important contributions to our understanding of collective effects in electronic materials. In 2012 he passed away after a long battle with cancer. In addition, the book features scientific contributions from some of Prof. Giuliani's former students and collaborators and a number of personal recollections by friends and colleagues which shed light on the complex, multifaceted personality of a physicist who was also a passionate soccer player and formula Ford pilot.Table of ContentsPreface.- Biography.- Scientific Papers of Gabriele Giuliani.- Scientific Contributions from Colleagues.- Personal Reminiscences.

Read more less

Book SynopsisEnvironmental electromagnetic pollution has drastically increased over the last decades. The omnipresence of communication systems, various electronic appliances and the use of ever increasing frequencies, all contribute to a noisy electromagnetic environment which acts detrimentally on sensitive electronic equipment. Integrated circuits must be able to operate satisfactorily while cohabiting harmoniously in the same appliance, and not generate intolerable levels of electromagnetic emission, while maintaining a sound immunity to potential electromagnetic disturbances: analog integrated circuits are in particular more easily disturbed than their digital counterparts, since they don't have the benefit of dealing with predefined levels ensuring an innate immunity to disturbances. The objective of the research domain presented in EMC of Analog Integrated Circuits is to improve the electromagnetic immunity of considered analog integrated circuits, so that they start to fail at relevantly higher conduction levels than before.Table of ContentsPreface. 1. INTRODUCTION. 1 The pioneers of wireless communication. 2 Evolution of awareness of electromagnetic compatibility. 3 Electromagnetic compatibility of integrated circuits. 4 Scope of this book. 2. BASIC EMC CONCEPTS AT IC LEVEL. 1 Introduction. 2 Definition of EMC, EMI, EMS and EME. 3 Sources of electromagnetic interference. 4 Electromagnetism versus integrated circuit design. 5 Intra-chip versus externally-coupled EMC. 6 Analog versus digital integrated circuits. 7 EMC in automotive applications. 8 Immunity measurement methods for IC’s: IEC 62132. 3. EMC OF INTEGRATED CIRCUITS VERSUS DISTORTION. 1 Introduction. 2 Relationship between EMI resisting design and distortion. 3 Case study 1: diode connected NMOS transistor. 4 Case study 2: NMOS source follower. 5 Case study 3: NMOS current mirror. 6 Case study 4: EMI susceptibility in ESD protections. 7 EMI induced DC shift. 4. EMI RESISTING ANALOG OUTPUT CIRCUITS. 1 Introduction. 2 Categorization of analog output structures. 3 Case study 1: EMI resisting DC current regulator. 4 Case study 2: EMI resisting LIN driver. 5. EMI RESISTING ANALOG INPUT CIRCUITS. 1 Introduction. 2 Case study 1: electromagnetic immunity of CMOS operational amplifiers. 3 Case study 2: EMI resisting instrumentation amplifier input circuit. 6. EMI RESISTING BANDGAP REFERENCES AND LOW DROPOUT VOLTAGE REGULATORS. 1 Introduction. 2 Case study 1: CMOS bandgap voltage references with a high immunity to EMI. 3 Case study 2: EMI resisting low dropout voltage regulators. 7. EPILOGUE. References. Index.

Read more less

Book SynopsisSolid State Physics opens with the adiabatic approximation to the many-body problem of a system of ions and valence electrons. After chapters on lattice symmetry, structure and dynamics, it then proceeds with four chapters devoted to the single-electron theory of the solid state. Semiconductors and dielectrics are covered in depth and chapters on magnetism and superconductivity follow. The book concludes with a chapter on solid surfaces. Every section is followed by solved problems, some of them illustrating areas of current interest in solid state physics, to give the student a practical working knowledge of the subject, and the text is illustrated by many supplementary examples.Table of Contents1. Systems of Atoms 2. Lattice Symmetry 3. Lattice and Structure 4. Lattice Dynamics 5. Electron Kinetics 6. Electron Dynamics 7. Semiconductor Physics 8. Dielectrics 9. Solid State Magnetism 10. Superconductivity 11. Solid Surfaces

Read more less

Book SynopsisThis book presents an analysis of limits in perception from the vantage point of the physicist, the engineer, the psychophysicist, the psychologist and the theorist. Limits in perception find their causal explanation at many logically and/or physically different levels. Some of the most fundamental bottlenecks are due to the quantum mechanical and atomistic structure of the microworld. Other simple constraints are due to the material constitution of sensory organs. For instance, the fact that the eye is predominantly composed of water limits both the optical quality and the available spectral window. The engineer uses knowledge on such limits to design equipment that optimizes human performance in daily life. Examples include room acoustics and visual displays. Psychophysicists and psychologists deal with limits on a quite different logical level. These limits constrain much of our perceptually guided behaviour. The book includes chapters on such topics as movement perception, binocular vision, illusory phenomena, language and perception, the perception of time. A few concluding chapters on fundamental limits imposed by information theoretical constraints on the coding and representation of sensed structure are included. Limits in Perception will be important reading material for scientists and/or engineers in the following fields: perception, experimental psychology, sensory biology, physics, neuroscience, human engineering, artificial intelligence, robotics, ophthalmology, audiology, psychonomics and ergonomics, remote sensing.Table of ContentsList of contributors, Prefacen, List of publications by M.A. Bouman, List of doctoral dissertations supervised by M.A. Bouman, PART 1: A PHYSICIST'S APPROACH TO THE LIMITS IN PERCEPTION, PART 2: AN ENGINEER'S APPROACH TO THE LIMITS IN PERCEPTION, PART 3: PSYCHOPHYSICAL APPROACHES TO THE LIMITS IN PERCEPTION, PART 4: PSYCHOLOGICAL APPROACHES TO THE LIMITS IN PERCEPTION, PART 5: THEORETICAL APPROACHES TO THE LIMITS IN PERCEPTION, Subject index

Read more less

Book SynopsisSolid state field-effect devices such as organic and inorganic-channel thin-film transistors (TFTs) have been expected to promote advances in display and sensor electronics. The operational stabilities of such TFTs are thus important, strongly depending on the nature and density of charge traps present at the channel/dielectric interface or in the thin-film channel itself. This book contains how to characterize these traps, starting from the device physics of field-effect transistor (FET). Unlike conventional analysis techniques which are away from well-resolving spectral results, newly-introduced photo-excited charge-collection spectroscopy (PECCS) utilizes the photo-induced threshold voltage response from any type of working transistor devices with organic-, inorganic-, and even nano-channels, directly probing on the traps. So, our technique PECCS has been discussed through more than ten refereed-journal papers in the fields of device electronics, applied physics, applied chemistry, nano-devices and materials science, finally finding a need to be summarized with several chapters in a short book. Device physics and instrumentations of PECCS are well addressed respectively, in the first and second chapters, for the next chapters addressing real applications to organic, oxide, and nanostructured FETs. This book would provide benefits since its contents are not only educational and basic principle-supportive but also applicable and in-house operational.Table of ContentsChapter 1. Device Stability and Photo-Excited Charge-Collection Spectroscopy. 1.1. Thin-film transistor architectures for photon probe measurements. 1.2. Device physics and equations for thin-film transistors.1.3. Stability issues: Hysteresis by Gate Voltage Sweep.1.4. Stability issues: Bias-Temperature-Stress. 1.5. Stability issues: Photostability.1.6. Stability issues: Back Channel Current.1.7. Importance of dielectric/channel interface trap states.1.8. Previous Interface Trap measurements.1.9. Photo-Excited Charge-Collection Spectroscopy (PECCS).1.10. Chapter summary.Reference.Chapter 2. Instrumentations for PECCS.2.1. Introduction of PECCS measurements system.2.2. Optical System for PECCS measurement.2.3. Electrical measurement.2.4. Data processing and analysis for DOS profile.Reference.Chapter 3. PECCS measurements in Organic FETs.3.1. PECCS on small molecule-based p-channel FETs. 3.2. PECCS on small molecule-based n-channel FETs.3.3. PECCS on polymer-based FETs.3.4. Chapter summary.Reference.Chapter 4. PECCS measurements in Oxide FETs.4.1. PECCS on ZnO based n-channel FETs.4.2. PECCS on amorphous InGaZnO based n-channel FETs.4.3. PECCS by Current-Voltage vs. Capacitance-Voltage method on amorphous Si and amorphous InGaZnOTFTs.4.4. PECCS to observe interface- and bulk-originated trap densities in amorphous InGaZnOTFTs.4.5. Chapter summary.Reference.Chapter 5. PECCS measurements in Nanostructure FETs.5.1. PECCS on ZnO nanowire-based n-channel FETs.5.2. PECCS measurements for the thickness-modulated bandgap of MoS2 nanosheets.5.3. Chapter summary.ReferenceChapter 6. Summary and limiting factors of PECCS.

Read more less

Book SynopsisThis large reference work addresses a broad range of topics covering various aspects of spintronics science and technology, ranging from fundamental physics through materials properties and processing to established and emerging device technology and applications. It comprises a collection of chapters from a large international team of leading researchers across academia and industry, providing readers with an up-to-date and comprehensive review of this dynamic field of research. The opening chapters focus on the fundamental physical principles of spintronics in metals and semiconductors, including the theory of giant magnetoresistance and an introduction to spin quantum computing. Materials systems are then considered, with sections on metallic thin films and multilayers, magnetic tunnelling structures, hybrid materials including Heusler compounds, magnetic semiconductors, molecular spintronic materials, carbon nanotubes and graphene. A separate section describes the various methods used in the characterisation of spintronics materials, including spin-polarised photoemission, x-ray diffraction techniques and spin-polarised SEM. The third and final part of the Handbook contains chapters on spintronic device technology and applications, including spin valves, GMR and MTJ devices, MRAM technology, spin transistors and spin logic devices, spin torque devices, spin pumping and spin dynamics, and thermal effects in spintronics. Each chapter builds from the fundamentals through to the state-of-the-art, also considering the challenges faced by researchers and containing some indication of the direction that future work in the field is likely to take. This reference work will be an essential and long-standing resource for the spintronics community, whether in academic or industrial research.Table of ContentsVolume 2 Materials2.1: Matallic thin films and recording media2.1.1 GMR and metallic multilayers, 2.1.2 Soft magnetic multilayers, 2.1.3 Perpendicular thin films and multilayers, 2.1.4 Patterned magnetic recording media, 2.1.5 Self-assembled magnetic nanostructures

Read more less

Book SynopsisThe book offers an in-depth review of the materials design and manufacturing processes employed in the development of multi-component or multiphase polymer material systems. This field has seen rapid growth in both academic and industrial research, as multiphase materials are increasingly replacing traditional single-component materials in commercial applications. Many obstacles can be overcome by processing and using multiphase materials in automobile, construction, aerospace, food processing, and other chemical industry applications. The comprehensive description of the processing, characterization, and application of multiphase materials presented in this book offers a world of new ideas and potential technological advantages for academics, researchers, students, and industrial manufacturers from diverse fields including rubber engineering, polymer chemistry, materials processing and chemical science. From the commercial point of view it will be of great value to those involved in processing, optimizing and manufacturing new materials for novel end-use applications. The book takes a detailed approach to the description of process parameters, process optimization, mold design, and other core manufacturing information. Details of injection, extrusion, and compression molding processes have been provided based on the most recent advances in the field. Over two comprehensive sections the book covers the entire field of multiphase polymer materials, from a detailed description of material design and processing to the cutting-edge applications of such multiphase materials. It provides both precise guidelines and general concepts for the present and future leaders in academic and industrial sectors.Table of ContentsSection I: Multicimponent Polymer Material Processing.Chapter 1: Introduction: Multi Component Materials.Chapter 2: Design for Multicomponent Materials.Chapter 3: Design of Mold for Multicomponent Material.Chapter 4: Injection Molding for Multicomponent Materials.Chapter 5: Extrusion of Multicomponent Product.Chapter 6: Compression for Multiphase Products.Chapter 7: Paints and Coating of Multicomponent Product. Section II: Applications of Multicomponent Product.Chapter 8: Multilayer Polymer Films.Chapter 9: Hybrid Systems for Multi-Layer Fuel and Air Hoses in Automobiles.Chapter 10: Multilayer Pipes.Chapter 11: Multilayer (Fuel) Storage Tank.Chapter 12: Multilayer Bottles.Chapter 13: Multiphase Materials for Tire Applications.Chapter 14: Interfacial Compatibilization of Multilayered Products. Chapter 15: Multilayer Nanowires and Miscellaneous Multilayer Products.

Read more less

Book SynopsisThis book is an in-depth review of experiment and theory on electric-dipole polarizabilities. It is broad in scope, encompassing atomic, molecular, and cluster polarizabilities. Both static and dynamic polarizabilities are treated (in the absence of absorption) and a full tensor picture of the polarizability is used. Traditional experimental techniques for measuring electric polarizabilities are described in detail. Recently developed experimental methods, including light forces, position-sensitive time-of-flight deflection, and atom interferometry, are also extensively discussed. Theoretical techniques for calculating polarizabilities are reviewed, including a discussion on the use of Gaussian basis sets. Many important comparisons between theory and experiment are summarized in an extensive set of tables of polarizabilities of important atoms, molecules, and clusters. Applications of polarizabilities to many areas of chemistry and physics are described, including optics, chemical structure, interactions of gases and particles with surfaces, and the interaction of molecules with light. The emphasis is on a lucid presentation of the ideas and results with up-to-date discussions on important applications such as optical tweezers and nanostructure fabrication. This book provides an excellent overview of the importance of polarizabilities in understanding the physical, electronic, and optical properties of particles in a regime that goes from free atoms to condensed-phase clusters.Table of ContentsGeneral properties of the linear polarizability; polarizable systems; theory; experiment; manifestations of polarization properties.

Read more less

Book SynopsisThis book provides a comprehensive reference for the studies of mechanical properties of materials over multiple length and time scales. The topics include nanomechanics, micromechanics, continuum mechanics, mechanical property measurements, and materials design. The handbook employs a consistent and systematic approach offering readers a user friendly reference ideal for frequent consultation. It is appropriate for an audience at of graduate students, faculties, researchers, and professionals in the fields of Materials Science, Mechanical Engineering, Civil Engineering, Engineering Mechanics, and Aerospace Engineering.Table of ContentsDislocation nucleation mediated plasticity of FCC nanowires.- Indentation behaviour of metallic glass via molecular dynamics simulation.- Surface/Interface Stress and Thin Film Stress.- On the vibratory probing of atomic force microscopy.- Characterization of mechanical properties in polymeric materials: A bottom-up approach.- Fracture nanomechanics.- In situ Transmission Electron Microscopy Investigation of Dislocation Interactions.- Multiscale Modeling of Radiation Hardening.- Atomistic simulations of Metal/Al2O3 interfaces.- Multiscale simulation of precipitation in copper-alloyed pipeline steels and in Cu-Ni-Si alloys.- Atomistic simulations of hydrogen effects on lattice defects in alpha iron.- Molecular Dynamics Simulations of Nanopolycrystals

Read more less

Book SynopsisThe fractional quantum Hall effect has been one of the most active areas of research in quantum condensed matter physics for nearly four decades, serving as a paradigm for unexpected and exotic emergent behavior arising from interactions. This book, featuring a collection of articles written by experts and a Foreword by Klaus von Klitzing, the discoverer of quantum Hall effect and winner of 1985 Nobel Prize in physics, aims to provide a coherent account of the exciting new developments and the current status of the field.

Read more less

Book SynopsisDespite a long tradition of sophisticated, creative materials synthesis among quantum materials researchers, a sense of broader community has been lacking. In initiating the Fundamentals of Quantum Materials Winter School held annually at the University of Maryland, we wanted to bring together the next generation of growers to learn techniques and pointers directly from senior scientists, and it turns out that we were not alone. The enthusiasm from both students and teachers has been both gratifying and invigorating. Four schools later, we can confidently say that physicists, chemists, and materials scientists, experimentalists and theorists alike, all want to know how to make a good sample. With this in mind, we asked our lecturers to record their most important ideas and share their expertise with a broader audience. This resource is a compilation of fundamental and practical guides on the modern methods of materials synthesis utilized by these experts. We hope that you enjoy reading their essential guidance and state-of-the-art techniques as you explore the Fundamentals of Quantum Materials.

Read more less

Book SynopsisThis book honors the remarkable science and life of Shoucheng Zhang, a condensed matter theorist known for his work on topological insulators, the quantum Hall effect, spintronics, superconductivity, and other fields. It contains the contributions displayed at the Shoucheng Zhang Memorial Workshop held on May 2-4, 2019 at Stanford University.

Read more less

Book SynopsisHow does a solar cell work? How efficient can it be? Why do intricate patterns of metal lines decorate the surface of a solar module? How are the modules arranged in a solar farm? How can sunlight be stored during the day so that it can be used at night? And, how can a lifetime of more than 25 years be ensured in solar modules, despite the exposure to extreme patterns of weather? How do emerging machine-learning techniques assess the health of a solar farm? This practical book will answer all these questions and much more.Written in a conversational style and with over one-hundred homework problems, this book offers an end-to-end perspective, connecting the multi-disciplinary and multi-scale physical phenomena of electron-photon interaction at the molecular level to the design of kilometers-long solar farms. A new conceptual framework explains each concept in a simple, crystal-clear form. The novel use of thermodynamics not only determines the ultimate conversion efficiencies of the various solar cells proposed over the years, but also identifies the measurement artifacts and establishes practical limits by correlating the degradation modes. Extensive coverage of conceptual techniques already developed in other fields further inspire innovative designs of solar farms.This book will not only help you to make a solar cell, but it will help you make a solar cell better, to trace and reclaim the photons that would have been lost otherwise. Collaborations across multiple disciplines make photovoltaics real and given the concern about reducing the overall cost of solar energy, this interdisciplinary book is essential reading for anyone interested in photovoltaic technology.

Read more less

Book SynopsisThe probing and modeling of carrier transport in materials is a fundamental research subject in electronics and materials science. According to the Maxwell electromagnetic field theory, there are two kinds of currents, i.e., conduction current and Maxwell displacement current (MDC). The conduction current flows when electronic charges, e.g., electrons and holes, are conveyed in solids, whereas MDC is the transient current that is generated due to the change of electric flux density. The source of conductive current is charged particles, i.e., electrons, holes, ions, etc., and the source of MDC is also the charged particles. It is therefore anticipated that we can probe and model carrier transport in materials, in terms of 'MDC'. In other words, we can find a novel way for modeling and analyzing materials on the basis of Dielectric Physics Approach, on focusing dielectric polarization phenomena. Maxwell Displacement Current and Optical Second-Harmonic Generation are basically dielectric phenomena. The aim of this book is to show the dielectric physics approach for the study of molecular materials and organic electronics devices related to carrier transport and dielectric polarization, on focusing Maxwell Displacement Current and Optical Second-Harmonic Generation in Organic Materials from viewpoints of Analysis and Application for Organic Electronics.

Read more less

Book SynopsisA core principle of physics is knowledge gained from data. Thus, deep learning has instantly entered physics and may become a new paradigm in basic and applied research.This textbook addresses physics students and physicists who want to understand what deep learning actually means, and what is the potential for their own scientific projects. Being familiar with linear algebra and parameter optimization is sufficient to jump-start deep learning. Adopting a pragmatic approach, basic and advanced applications in physics research are described. Also offered are simple hands-on exercises for implementing deep networks for which python code and training data can be downloaded.

Read more less

Book SynopsisThis book provides a concise introduction to soft matter modelling, together with an up-to-date review of the continuum mechanical description of soft and biological materials, from the basics to the latest scientific materials. It also includes multi-physics descriptions, such as chemo-, thermo-, and electro-mechanical coupling. The new edition includes a new chapter on fractures as well as numerous corrections, clarifications and new solutions. Based on a graduate course taught for the past few years at Technion, it presents original explanations for a number of standard materials, and features detailed examples to complement all topics discussed.Table of Contents

Read more less

Book SynopsisThis book provides a systematic description and analysis of laser heat-mode lithography, addressing the basic principles, lithography system, manipulation of feature size, grayscale lithography, resist thin films, and pattern transfer, while also presenting typical experimental results and applications. It introduces laser heat-mode lithography, where the resist thin films are essentially an opto-thermal response to the laser beam with changeable wavelength and are not sensitive to laser wavelength. Laser heat-mode lithography techniques greatly simplify production procedures because they require neither a particular light source nor a particular environment; further, there are no pre-baking and post-baking steps required for organic photoresists. The pattern feature size can be either larger or smaller than the laser spot by adjusting the writing strategy. The lithographic feature size can also be arbitrarily tuned from nanoscale to micrometer without changing the laser spot size. Lastly, the line edge roughness can be controlled at a very low value because the etching process is a process of breaking bonds among atoms. The book offers an invaluable reference guide for all advanced undergraduates, graduate students, researchers and engineers working in the fields of nanofabrication, lithography techniques and systems, phase change materials, etc.Table of ContentsCurrent status of lithography.- Principles of laser heat-mode lithography and thermal diffusion.- Laser heat-mode maskless lithography system.- Manipulation of thermal diffusion channels.- Laser heat-mode nanolithography on phase-change thin films.- Direct laser heat-mode nanopatterning on metallo-organic compound thin films.- Laser heat-mode patterning of transparent thin films.- Laser heat-mode grayscale image lithography.- Patterns transfer processes and applications.

Read more less

Book SynopsisThis book covers recent trends in the field of devices, wireless communication and networking. It gathers selected papers presented at the International Conference on Communication, Devices and Networking (ICCDN 2020), which was organized by the Department of Electronics and Communication Engineering, Sikkim Manipal Institute of Technology, Sikkim, India, on 19–20 December 2020. Gathering cutting-edge research papers prepared by researchers, engineers and industry professionals, it helps young and experienced scientists and developers alike to explore new perspectives, and offer them inspirations on how to address real-world problems in the areas of electronics, communication, devices and networking.Table of ContentsDesign and Implementation of Multi-Operand 2n?1, 2n, and 2n+1 Modulo Set Adder.- Analysing the behaviour of 14nm,10nm,7nm FinFET and predicting the superiority among the lot.- Delta Doped Layer-Based Hetero-Structure DG PNPN-TFET: Electrical Property and Temperature Dependence.

Read more less

Book SynopsisRich information-theoretic structure in out-of-equilibrium thermodynamics exists in both the classical and quantum regimes, leading to the fruitful interplay among statistical physics, quantum information theory, and mathematical theories such as matrix analysis and asymptotic probability theory. The main purpose of this book is to clarify how information theory works behind thermodynamics and to shed modern light on it.The book focuses on both purely information-theoretic concepts and their physical implications. From the mathematical point of view, rigorous proofs of fundamental properties of entropies, divergences, and majorization are presented in a self-contained manner. From the physics perspective, modern formulations of thermodynamics are discussed, with a focus on stochastic thermodynamics and resource theory of thermodynamics. In particular, resource theory is a recently developed field as a branch of quantum information theory to quantify “useful resources” and has an intrinsic connection to various fundamental ideas of mathematics and information theory. This book serves as a concise introduction to important ingredients of the information-theoretic formulation of thermodynamics. Trade Review“The book has three appendices on quantum divergences and their monotonicity, hypothesis testing and asymptotic equipartition properties. A large number of references are cited at the end of the book. The book presents wealth of theoretical information on quantum information theory. … The book may be used as a reference for the researchers in quantum information theory.” (K. N. Shukla, zbMATH 1505.80001, 2023)Table of Contents1Introduction.- 2Classical entropy and divergence.- 3Classical majorization.- 4Classical thermodynamics.- 5Quantum entropy and divergence.- 6Quantum majorization.- 7Approximate and asymptotic majorization and divergence.- 8Quantum thermodynamics.- AGeneral quantum divergences and their monotonicity.- BHypothesis testing.- CClassical asymptotic equipartition properties.- References.

Read more less

Book SynopsisThis book highlights the importance of Electron Statistics (ES), which occupies a singular position in the arena of solid state sciences, in heavily doped (HD) nanostructures by applying Heisenberg’s Uncertainty Principle directly without using the complicated Density-of-States function approach as given in the literature. The materials considered are HD quantum confined nonlinear optical, III-V, II-VI, IV-VI, GaP, Ge, PtSb2, stressed materials, GaSb, Te, II-V, Bi2Te3, lead germanium telluride, zinc and cadmium diphosphides, and quantum confined III-V, IV-VI, II-VI and HgTe/CdTe super-lattices with graded interfaces and effective mass super-lattices. The presence of intense light waves in optoelectronics and strong electric field in nano-devices change the band structure of materials in fundamental ways, which have also been incorporated in the study of ES in HD quantized structures of optoelectronic compounds that control the studies of the HD quantum effect devices under strong fields. The influence of magnetic quantization, magneto size quantization, quantum wells, wires and dots, crossed electric and quantizing fields, intense electric field, and light waves on the ES in HD quantized structures and superlattices are discussed. The content of this book finds six different applications in the arena of nano-science and nanotechnology and the various ES dependent electronic quantities, namely the effective mass, the screening length, the Einstein relation and the elastic constants have been investigated. This book is useful for researchers, engineers and professionals in the fields of Applied Sciences, solid state and materials science, nano-science and technology, condensed matter physics, and allied fields, including courses in semiconductor nanostructures. ​Table of ContentsPlease see Attachments tab for detailed ToC​

Read more less

Book SynopsisThis book includes problems based on the material in the course of physical kinetics for the students of general and applied physics. It contains 60 problems with detailed solutions. The comments to the problems reflect the connection with the problems and methods of modern physical kinetics. A brief introduction gives the necessary information for solving and understanding the problems. The book is proposed for students and postgraduates studying the theoretical physics. The book is used as a supplement to the textbooks published on physical kinetics. The purpose of the book is to help students in training the practical skills and mastering the basic elements of physical kinetics. To understand the subject matter, it is sufficient to know the traditional courses of theoretical physics.Table of Contents1. Brief reminders 1.1. The Boltzmann transport equation 1.2. The generalized susceptibility and the linear response 1.3. The fluctuation-dissipation theorem 1.4. The Onsager reciprocal relations 1.5. The Lindblad master equation 2. Problems 2.1. The Langevin equation and the fluctuation-dissipation theorem 2.2. The Boltzmann transport equation in the τ-approximation: the thermoelectric effects in conductors 2.3. Galvanomagnetic effects in metals 2.4. Kinetic phenomena in a metal and normal Fermi liquid 2.5. Electron-phonon scattering in a metal: the transport coefficients 2.6. The electron scattering with magnetic impurities: the Kondo effect 2.7. Weak localization effects in a metal with impurities 2.8. Ballistic electron transport in the mesoscopic systems 2.9. The rarified Bose and Fermi gases 2.10. The hopping Mott conductivity and the Coulomb gap 2.11. Kinetics of phonons and thermal conductivity in dielectrics 2.12. The hydrodynamics of normal and superfluid liquids: sound oscillations and energy dissipation 2.13. Kapitza resistance and kinetic phenomena at the superfluidsolid helium interface 2.14. Collisionless plasma: the permittivity and the longitudinal and transverse oscillations 2.15. Kinetics of first-order phase transitions: melting and solidification 2.16. Macroscopic quantum tunneling 2.17. Macroscopic quantum nucleation 2.18. Open quantum systems: the Lindblad equation 2.19. Elements of diagrammatic Keldysh technique for non-equilibrium systems 3. Solutions of Problems 3.1. The Langevin equation and the fluctuation-dissipation theorem 3.2. The Boltzmann transport equation in the _-approximation: the thermoelectric effects in conductors 3.3. Galvanomagnetic effects in metals 3.4. Kinetic phenomena in a metal and normal Fermi liquid 3.5. Electron-phonon scattering in a metal: the transport coefficients 3.6. The electron scattering with magnetic impurities: the Kondo effect 3.7. Weak localization effects in a metal with impurities 3.8. Ballistic electron transport in the mesoscopic systems 3.9. The rarified Bose and Fermi gases 3.10. The hopping Mott conductivity and the Coulomb gap 3.11. Kinetics of phonons and thermal conductivity in dielectrics 3.12. The hydrodynamics of normal and superfluid liquids: sound oscillations and energy dissipation 3.13. Kapitza resistance and kinetic phenomena at the superfluidsolid helium interface 3.14. Collisionless plasma: permittivity and the longitudinal and transverse oscillations 3.15. Kinetics of first-order phase transitions: melting and solidification 3.16. Macroscopic quantum tunneling 3.17. Macroscopic quantum nucleation 3.18. Open quantum systems: the Lindblad equation 3.19. Elements of diagrammatic Keldysh technique for non-equilibrium systems Bibliography Index ​

Read more less

Book SynopsisThis book constructs a non-Bloch band theory and studies physics described by non-Hermitian Hamiltonian in terms of the theory proposed here.In non-Hermitian crystals, the author introduces the non-Bloch band theory which produces an energy spectrum in the limit of a large system size. The energy spectrum is then calculated from a generalized Brillouin zone for a complex Bloch wave number. While a generalized Brillouin zone becomes a unit circle on a complex plane in Hermitian systems, it becomes a circle with cusps in non-Hermitian systems. Such unique features of the generalized Brillouin zone realize remarkable phenomena peculiar in non-Hermitian systems. Further the author reveals rich aspects of non-Hermitian physics in terms of the non-Bloch band theory. First, a topological invariant defined by a generalized Brillouin zone implies the appearance of topological edge states. Second, a topological semimetal phase with exceptional points appears, The topological semimetal phase is unique to non-Hermitian systems because it is caused by the deformation of the generalized Brillouin zone by changes of system parameters. Third, the author reveals a certain relationship between the non-Bloch waves and non-Hermitian topology.Table of ContentsIntroduction.- Hermitian Systems and Non-Hermitian Systems.- Non-Hermitian Open Chain and Periodic Chain.- Non-Bloch Band Theory of Non-Hermitian Systems and Bulk-Edge Correspondence.- Topological Semimetal Phase With Exceptional Points in One-Dimensional Non-Hermitian Systems.- Non-Bloch Band Theory in Bosonic Bogoliubov-de Gennes Systems.- Summary and Outlook.

Read more less

Book SynopsisThis book explains the basic and fundamental aspects of nanotechnology and the potential use of nanostructured photocatalysts in various applications, especially in the context of the environment and energy harvesting. It describes the preparation and characterization of unique nanostructured photocatalysts and provides details of their catalytic action, and also discusses the design of new types of photocatalysts with controlled nanostructures. Given its broad scope, the book will appeal to academic and industrial researchers interested in heterogeneous photocatalysis, sustainable chemistry, energy conversion and storage, nanotechnology, chemical engineering, environmental protection, optoelectronics, sensors and surface and interface science.Table of Contents

Read more less

Book SynopsisThis book presents peer-reviewed articles from the National Workshop on Recent Advances in Condensed Matter and High Energy Physics-2021 (CMHEP-2021). This workshop was held in the Department of Physics, Ewing Christian College (ECC), Prayagraj, in collaboration with National Academic of Sciences (NASI), Prayagraj, India, in 2021. The book highlights recent theoretical and experimental developments in condensed matter and high energy physics which include novel phases of matter, namely crystalline and non-crystalline phases, unconventional superconducting phases, magnetic phases and Quark–Gluon plasma phases along with searches of neutrino and dark matter. This book provides a good resource for beginners as well as advanced researchers in the field of condensed matter and high energy physics.Table of ContentsGround state properties of spin−1/2 Falicov-Kimball model on a triangular lattice with uniform external magnetic field.- Tuning the morphology of lanthanum cobaltite using the surfactant-assisted hydrothermal approach for enhancing oxygen evolution catalysis.- Synthesis of Novel Complex Metallic Alloys.- A TiO2 based Gas Sensor for Liquefied Petroleum Gas.- A study of the Solar Cycle 21 to 24 and the starting phase of solar cycle 25.- Theoretical approach to modify the Born-Mayer Parameters in layered superconductor.- Effect of varying the grating length in an Optical Read-out Scheme Based on Grated Waveguide Cantilever Cavity Resonance.- Synthesis and Characterization of MoO3 Nanomaterials for Energy Storage Application.- Enhancement in optical absorbance of ZnO nanoparticles by introducing MoS2 nanosheets.- Effect of different ablation time of ns-pulsed laser on the synthesis of silver nanoparticles in liquid.- Investigation of Thermodynamical and Electro-optical properties of Nematic Liquid Crystals dispersed with Low wt% BaTiO3 Nanoparticles.- Elastic and mechanical investigation of high temperature IrxRe1-x alloys.- Comparative study of photocatalytic activity of ZnS and CuS Nanoparticles for Dye degradation under visible light irradiation.- Microstructural properties of palladium doped tin oxide thick film.- PVDF based nanocomposite polymer electrolyte for enhancement in stability of dye sensitized solar cells.- Morse Potential in Y-123 High temperature layered Superconductors.- Effect of dispersion of thiol capped AuNPs in room temperature discotic material.- Neutrinos properties and its detection.- Identified Charged Particle Production in Pb+Pb Collisions at √sNN = 2.76 TeV using Tsallis Distribution Function.- Multiplicity features of the grey particles emerged in 84Kr36+Em interaction at 1 GeV per nucleon.- Quantifying the performance of Multilayer insulation technique for cryogenic application.- Identification of bulk and surface event in point contact germanium detector at sub-keV energy region.- Fragmentation characteristics of the projectile fragments emitted in 84Kr36 + Em interaction at 1 A GeV.- Study of the multiplicity characteristics for target fragments produced in 84Kr36+Em interaction at relativ-istic energy.- Characteristics of the high purity germanium detectors in dark matter and neutrino sector.

Read more less

Book SynopsisThis book presents the advancement of coating materials technology especially in agriculture, particularly for fertilizers. Fertilizers are a critical component in meeting rising demands and ensuring global food security. A new generation of fertilizers made by coating granules with biopolymers address these issues. Coating in agriculture is an important area in research for a more sustainable future. Many examples and instances from existing research and related research gaps are discussed. It includes applications of composites as fertilizer’s coating, advantages and disadvantages of fertilizer coating from composites, applications of bacteria in composite, applications of bacteria in fertilizer industry as well as the common techniques of coating fertilizers with drying process. ​Table of ContentsChapter 1. Introduction to Bio-coating.- Chapter 2. Bio-coating from Composite Materials.- Chapter 3. Bacteria in Bio-coating.- Chapter 4. Evaluation of Bio-coating.- Chapter 5. Techniques of Bio-coating Evaluation.- Chapter 6. Conclusion.-References ​

Read more less

Book SynopsisThis book highlights the methods to engineer dissipative and magnetic nonlinear waves propagating in nonlinear systems. In the first part of the book, the authors present methodologically mathematical models of nonlinear waves propagating in one- and two-dimensional nonlinear transmission networks without/with dissipative elements. Based on these models, the authors investigate the generation and the transmission of nonlinear modulated waves, in general, and solitary waves, in particular, in networks under consideration. In the second part of the book, the authors develop basic theoretical results for the dynamics matter-wave and magnetic-wave solitons of nonlinear systems and of Bose–Einstein condensates trapped in external potentials, combined with the time-modulated nonlinearity. The models treated here are based on one-, two-, and three-component non-autonomous Gross–Pitaevskii equations. Based on the Heisenberg model of spin–spin interactions, the authors also investigate the dynamics of magnetization in ferromagnet with or without spin-transfer torque. This research book is suitable for physicists, mathematicians, engineers, and graduate students in physics, mathematics, and network and information engineering.Table of Contents

Read more less

Book SynopsisThis book presents peer reviewed articles from the Green Materials and Electronic Packaging Interconnect Technology Symposium, (EPITS 2022), held in Langkawi, Malaysia on 14th and 15th of Sept, 2022. It brings together packaging experts to share and exchange ideas in electronics technology. Topics covered in this volume include, but are not limited to; (1) Green materials and technology, (2) Emerging interconnect materials and technologies,(3) Non-solder interconnect materials at chip and package levels, (4) Fundamental materials behavior for electronic packaging materials, (5) Advanced characterization methods as applied to electronic packaging technology, (6) Developments in high temperature Pb-free solders and associated interconnects for automotive and power electronics, (7) Surface coating materials & (8) Advanced materials. ​Table of ContentsGreen Materials and Electronic Packaging Interconnect Technology.- Electronic Materials and Technology.- Green Materials and Technology.

Read more less

Book SynopsisThis book highlights state-of-the-art qubit implementations in semiconductors and provides an extensive overview of this newly emerging field. Semiconductor nanostructures have huge potential as future quantum information devices as they provide various ways of qubit implementation (electron spin, electronic excitation) as well as a way to transfer quantum information from stationary qubits to flying qubits (photons). Therefore, this book unites contributions from leading experts in the field, reporting cutting-edge results on spin qubit preparation, read-out and transfer. The latest theoretical as well as experimental studies of decoherence in these quantum information systems are also provided. Novel demonstrations of complex flying qubit states and first applications of semiconductor-based quantum information devices are given, too.Trade Review"Undoubtedly the book represents the interest for scientists working in this field and related physics fields. It is not a textbook, but [a detailed study] of the suggested material is very important for postgraduate students specializing in the modern optics of nanosubjects and theorists studying quantum computer theory."—Igor A. Merkulov, University of Tennessee, USA"This book provides a timely summary of the state of the art from established groups around the world and will serve as a critical reference for researchers and students working to advance the frontier. The editors have done an excellent job in collecting and assembling the topics and authors for the most important areas."—Duncan G. Steel, University of Michigan, USATable of ContentsSpin and Charge Qubits; Qubit Control, Readout, and Transfer; Qubit Decoherence; Flying Qubits; Qubit Applications.

Read more less

Book SynopsisThe book investigates QDs and SWCNTs using quantum-chemical calculations that describe intricate details of excited-state phenomena and provides information about the mechanisms that occur on the atomic level and that are extremely difficult, if not impossible, to probe experimentally. It delivers, consistently and coherently, a novel approach to nanomaterials which is promising for today's technologies as well as their future. This approach elegantly overcomes computational difficulties known in the field and shares ways to reach top performance in the description of combined quantum effects of molecular vibrations and exciton formation on realistic-size numerical models. The reader will acquire an understanding of the pioneering methodology supported by most recent original results, prospectively applicable to the design of new nano-devices. Trade Review"This book brings a wonderful collection of works in the area of quantum chemistry calculations devoted to the optical properties of quantum dots and carbon nanotubes. Optics is one of the most promising fields for the understanding of both materials science and innovations in nanotechnology. Kilina's book illustrates the great scientific development made possible by nanoscience."—Prof. Ado Jorio de Vasconcelos, Universidade Federal de Minas Gerais, BrazilTable of ContentsCommon Features of Low-Dimensional Nanomaterials. Intriguing Phenomena in Quantum Dots and Potential Applications. Advantages and Challenges of Technological Applications of Carbon Nanotubes. Excitonic Character and Numerical Approaches to QDs and SWCNTs. Electronic Structure and Phonon-Induced Carrier Relaxation in CdSe and PbSe Quantum Dots: Carrier Dynamics in Quantum Dots. Trajectory Surface Hopping in the Density Functional TheoryResults and Discussion. Conclusions. Excitonic and Vibrational Properties of Single-Walled Semiconducting Carbon Nanotubes: Introduction. Computational ESMD Methodology. Results and Discussion. Conclusions.

Read more less

Book SynopsisWhen the size and the shape of materials are reduced to the nanoscale dimension, their physical and chemical properties can change dramatically. This book demonstrates the controlled size and shape of nanostructured materials and their applications. The applications cover photocatalysts, biomedicals, nanomaterials, fuel cells and supercapacitors, lithium-ion batteries, light-emitting diodes, and field emission display. This book may be the first to clearly point out the relationship between the size and the structure of the materials, which strongly affects their properties. Understanding these control parameters has important technological implications for energy conversion and storage, biotechnology, lighting and display, and so forth. Trade Review"This interesting book presents studies on controlled size and shape of nanostructured materials. With a clear introduction of the magical physical and chemical changes brought about by the ‘nano’ version of materials, the author exemplifies many of their wide applications, including photocatalysts, biomedicals, nanomaterials, fuel cells and supercapacitors, lithium-ion batteries, light-emitting diodes, and field emission display. This is the right book for scientists and students who are looking for inspiration, perspectives, and the latest studies in this field."—Prof. Hongjie Zhang - Chinese Academy of Sciences, China"This book offers perspectives of controlled fabrication of nanostructured materials with an extensive collection of the most updated studies that encourage the use of nanostructured materials for a wide range of applications. Reading it certainly benefits readers’ understanding of the relationship between the structures and properties of nanomaterials and their new applications. An excellent reference for inspiring scientists and students."—Dr. Qiang Xu - National Institute of Advanced Industrial Science and Technology, Japan"This book represents an extensive collection of the most updated studies that cover tremendous nanosystems with controlled size and shape for a variety of applications such as energy conversion and storage, catalysis, biotechnology, lighting, and displays. The comprehensive perspectives will undoubtedly help gain deep insights into the relationship between the morphology (structure) and properties of functional nanomaterials, which remained nearly untouched. I believe such a timely and interesting text is invaluable and instructive, particularly for young scientists in this field."—Prof. Xueyuan Chen - Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences, China"This book offers readers some excellent resources of up-to-date knowledge on nanostructured materials with controlled size and shape according to their electrical, optical, and magnetic properties. Each chapter is prepared by internationally recognized experts in their respective fields. It is comprehensive and well written and will attract a broad range of readers in science and technology."—Dr. Jiujun Zhang - National Research Council of Canada, Vancouver, CanadaTable of ContentsAn introduction of Controlled Sizes and Shapes of Nanostructures and Their Applications. Visible Light Responsive Surface Structure Controlled TiO2 Nanoparticles. Controlled Shaping TiO2 for Efficient Photocatalysis. Shape and Particle Size Controlled for Water Splitting. Shaping and Particle Size Effect of TiO2 on the Cytotoxicity. Controlled Growth of Nanomaterials for the Biomedical Application. Shape Controlled (including particle, rod and star-shape) of Au Nanomaterials for Biomedical Applications. Size and Shape-controlled Synthesis of Nanocrystals. Hybrid Inorganic Nanomaterials with Controlled Sizes and Shapes. Controlled Particle Size and Shape of Nanomaterials and Their Applications. Controlled Particle Size and Shape of Nanomaterials and Their Applications. Controlled Shape and Size of Nanocatalysts for Fuel Cells. Controlled Particle Size and Shape of Nanomaterials and Their Applications in Supercapacitors. Nano/composite Materials for Lithium-ion Batteries. Controlled Size and Shape of Graphene and Its Application in Li-ion Battery. Controlled Growth of Quantum Dots and their Application to Wavelength Converter for Light-emitting Diodes. Artificial Nanostructures with Controlled Sizes and Shapes.

Read more less

Book SynopsisRecently, there has been a surge of activity to elucidate the behavior of highly charged soft matter and Coulomb fluids in general. Such systems are ubiquitous, especially in biological matter where the length scale and the strength of the interaction between highly charged biomolecules are governed by strong electrostatic effects. Several interesting limits have been discovered in the parameter space of highly charged many-particle Coulomb matter where analytical progress is possible and completely novel and unexpected results have been obtained. One of the challenges in highly charged matter is to correctly describe systems with finite coupling strength in the transition regime between weak and strong couplings. After studying the fluctuations of both, several theories have been developed that describe this experimentally highly relevant regime. At the same time, computer simulation algorithms and computing power have advanced to the level where all-ion simulations, including many-body and polarization effects, are possible; the new theories thus can be subjected to numerical confirmation. Another important question is the effect of the structural disorder on electrostatic interactions. It has recently been demonstrated, both theoretically and experimentally, that charge disorder can impose long-range interaction between charged or even uncharged surfaces. These interactions might become very significant in biological processes. Filling a void in the literature, this volume cross-pollinates different theoretical and simulation approaches with new experiments and ties together the low temperature, high coupling constant, and disorder parameters in a unified description of the electrostatic interactions, which largely determine the stability and conformations of most important biological macromolecules.With striking graphical illustrations, the book presents a unified view of the current advances in the field of Coulomb (bio)colloidal systems, building on previous literature that summarized the field over 20 years ago. Leading scientists in the field offer a detailed introduction to different modern methods in statistical physics of Coulomb systems. They detail various approaches to elucidate the behavior of strongly charged soft matter. They also provide experimental and theoretical descriptions of disorder effects in Coulomb systems, which have not been discussed in any other book. Trade Review"This is a timely and illuminating volume, reviewing the state of the art of Coulombic fluids, and shedding some light on the counter-intuitive phenomena that emerge from Coulombic interactions. The book is in particular interesting because it reviews the fundamental role played by Coulombic interactions when macromolecules are dissolved in an aqueous milieu. An up-to-date introduction of the subject as well as advanced topics that will be welcome by students and researchers alike."Prof. David Andelman, Tel Aviv University, IsraelTable of ContentsSurprising Challenges. Dielectric Profiles and Ion-Specific Effects at Aqueous Interfaces. Coulomb interactions between Disordered Charge Distributions. Coarse-Grained Modeling of Charged Colloidal Suspensions: From Poisson-Boltzmann Theory to Effective Interactions. Dynamic Electric Response of Charged Fibrous Virus (fd) Suspensions: Interactions of Charged Colloidal Rods in AC Electric Fields. Many-Body Interactions in Volloidal Suspensions. Modeling DNA in Nanopores. Aspects of 1D Coulomb Gases. Hydration Repulsion between Polar Surfaces: An Atomistic Simulation Approach. Electrostatics in Electrolytes Expressed in an Exact Formalism Reminiscent of the Poisson-Boltzmann Picture. Interaction between Disordered Heterogeneous Charged Surfaces. Polarizable Surfaces: Weak and Strong Coupling Regimes. A Field Theory Approach for Modeling Electrostatic Interactions in Soft Matter. Legendre Transforms for Electrostatic Energies. Short-Range Disorder and Electrostatic Interactions in Macromolecules. Mean-Field Electrostatics of Still Rod-Like Ions. Extended Poisson–Boltzmann Descriptions of the Electrostatic Double Layer: Implications for Charged Particles at Interfaces. Modeling Electrokinetics through Varying Length and Time Scales. Physics of Counterion Mediated Attractions between Double-Stranded DNAs. Estimation of Solvation Electrostatic Free Energy of Biomolecular Systems by Numerical Solution of the Poisson-Boltzmann Equation. The Electrode-Ionic Liquid Interface: A Molecular Point of View. The Wigner Strong-Coupling Approach. Ionic Liquids and Ionic Liquid+Solvent Mixtures, Studied by Classical Density Functional Theory. Controlling the Fluid-Fluid Mixing-Demixing Phase Transition with Electric Fields. Statistical Thermodynamics of Supercapacitors and Blue Engines. Cluster Phases in Colloids and Proteins. Moderately Coupled Charged Fluids near Dielectric Interfaces and in Confinement.

Read more less

Book SynopsisProfessor Freeman Dyson, a great physicist, thinker and futurist, has been very active in scientific, literary and public policy activities throughout his career. As a tribute to him on the occasion of his 90th birthday and to celebrate his lifelong contributions in physics, mathematics, astronomy, nuclear engineering and global warming, a conference covering a wide range of topics was held in Singapore from 26 to 29 August 2013. Distinguished scientists from around the world, including Nobel Laureate Professor David Gross, joined Professor Dyson in the celebration with a festival of lectures.This memorable volume collects an interesting lecture by Professor Dyson, Is a Graviton Detectable?, contributions by speakers at the conference, as well as guest contributions by colleagues who celebrated Dyson's birthday at Rutgers University and Institute for Advanced Study in Princeton.About Freeman DysonFreeman John Dyson FRS, born December 15, 1923, is an eminent English-born American physicist, mathematician, and futurist. He is famous for his work in quantum electrodynamics, solid-state physics, mathematics, astronomy and nuclear engineering, as well as a renowned and best-selling author. He has spent most of his life as a professor of physics at the Institute for Advanced Study in Princeton, taking time off to advise the US government and write books for the public. He has won numerous notable awards including the Enrico Fermi Award, Templeton Prize, Wolf Prize, Pomeranchuk Prize, and Henri Poincaré Prize.Table of ContentsIs a Graviton Detectable? (F Dyson); Dark Energy and Dark Matter in a Superfluid Universe (K Huang); Tenth-order QED contribution to the electron g-2 and high precision test of Quantum Electrodynamics (T Kinoshita); The Relativity of Space-Time-Property (R Delbourgo); Overview of the study of complex shapes of fluid membranes, the Helfrich model and new applications (O Zhong-can); Freeman in 1948 (C DeWitt); "Dear Professor Dyson": Twenty Years of Correspondence Between Freeman Dyson and Undergraduate Students (D Neuenschwander); Freeman Dyson: Some Early Recollections (M Longuet-Higgins); Carbon Humanism: Freeman Dyson and the looming battle between environmentalists and humanists (P Schewe).

Read more less

Book SynopsisInterferometric observations need snapshots of very high time resolution of the order of (i) frame integration of about 100 Hz or (ii) photon-recording rates of several megahertz (MHz). Detectors play a key role in astronomical observations, and since the explanation of the photoelectric effect by Albert Einstein, the technology has evolved rather fast. The present-day technology has made it possible to develop large-format complementary metal oxide–semiconductor (CMOS) and charge-coupled device (CCD) array mosaics, orthogonal transfer CCDs, electron-multiplication CCDs, electron-avalanche photodiode arrays, and quantum-well infrared (IR) photon detectors. The requirements to develop artifact-free photon shot noise-limited images are higher sensitivity and quantum efficiency, reduced noise that includes dark current, read-out and amplifier noise, smaller point-spread functions, and higher spectral bandwidth. This book aims to address such systems, technologies and design, evaluation and calibration, control electronics, scientific applications, and results.One of the fastest growing applications is signal sensing, especially wavefront sensing for adaptive optics and fringe tracking for interferometry, which is important for long-baseline optical interferometry. The coherence time of the atmosphere is a highly variable parameter. Depending upon the high velocity wind, it varies from <1 ms to 0.1 s. The exposure times are to be selected accordingly, to maximize the signal-to-noise ratio, as well as to freeze the fringe pattern. A large-format photon-counting system, which is an essential tool in the application of optical interferometric imaging, allows accurate photon centroiding and provides the dynamic range needed for measurements of source characteristics. The advent of high-quantum efficiency photon-counting systems vastly increases the sensitivity of high-resolution imaging techniques. Such systems raise the hope of making diffraction-limited images of objects as faint as ~15–16 m_v (visual magnitude).This book deals with the fundamentals of the important aspects of high-resolution imaging, such as electromagnetic radiations, particularly, optical wavelengths and their distortions due to optical elements and Earth’s atmosphere while passing through a detector; semiconductor physics; lasers; fiber optics; photon-detection process; photodetectors; charge-transfer devices; photon-counting devices in visible wavelength; radiation detectors in infrared wavelengths; and detecting systems for high energies.Trade Review"This unique book describes the current evolution of astronomical instruments in the way of high-resolution observations. The book nicely specifies the special requirements for detectors, which must respond fast for mitigating the degrading effect of the atmospheric turbulence. It should be of interest to professional and amateur astronomers, particularly those who may want to attempt forms of high-resolution observation, some of which are becoming widely accessible."—Antoine Labeyrie, Emeritus Professor, Collège de France, France"Prof. Saha has done a splendid job by presenting a succinct description of the principles and applications of radiation detectors used for high-resolution imaging in visible and infrared astronomy. The scope of the book, however, extends to all areas of high-resolution imaging, and the book will be a welcome addition to the library of anyone interested in learning about the state of the art in the field."—Prof. Lakshminarayan Hazra, University of Calcutta, India"In the present volume, Saha has used his expertise in instrumentation and data analysis to expand his horizons to a wider range of high-resolution imaging techniques, essential characteristics of detectors and control electronics, and other wavelength ranges and kinds of astronomical sources. This book will be a valuable resource for astronomers and students involved in the design of modern instrumentation and attempting to take and make use of data with instrumentation that they did not design."—Prof. Virginia Trimble, University of California, Irvine, USATable of ContentsIntroducing topological insulators: Mind the time reversal. Two-dimensional topological insulators. Two-dimensional topological insulators in quantizing magnetic fields. Three-dimensional topological insulators. Unconventional superconductivity and Majorana fermions in topological insulators.

Read more less

Book SynopsisIn the recent decades, laser cooling or optical refrigeration—a physical process by which a system loses its thermal energy as a result of interaction with laser light—has garnered a great deal of scientific interest due to the importance of its applications. Optical solid-state coolers are one such application. They are free from liquids as well as moving parts that generate vibrations and introduce noise to sensors and other devices. They are based on reliable laser diode pump systems. Laser cooling can also be used to mitigate heat generation in high-power lasers.This book compiles and details cutting-edge research in laser cooling done by various scientific teams all over the world that are currently revolutionizing optical refrigerating technology. It includes recent results on laser cooling by redistribution of radiation in dense gas mixtures, three conceptually different approaches to laser cooling of solids such as cooling with anti-Stokes fluorescence, Brillouin cooling, and Raman cooling. It also discusses crystal growth and glass production for laser cooling applications. This book will appeal to anyone involved in laser physics, solid-state physics, low-temperature physics or cryogenics, materials research, development of temperature sensors, or infrared detectors.Trade Review"This book provides a timely and useful collection of articles on optical refrigeration science that complements the earlier books on this subject. It covers a wide range of topics, including laser cooling in dense gases, radiation-balanced lasers, novel cooling methods, and laser cooling in semiconductors. It should serve as a valuable reference for the scientists and graduate students studying this emerging interdisciplinary field."—Prof. Mansoor Sheik-Bahae, The University of New Mexico, USA"This book presents a significant overview of the entire field of laser cooling of bulk matter, with many new results and recent novel directions of investigation. It is written by a large number of well-qualified experts, covering a broad range of ideas, particularly with clear figures and well-organized tables. It would make an excellent reference for spectroscopists, condensed matter physicists, crystallographers, and laser scientists." —Prof. Carl E. Mungan, United States Naval Academy, USATable of ContentsLaser Cooling of Dense Gases by Collisional Redistribution of Radiation. Laser Cooling in Rare Earth Doped Glasses and Crystals. Progress toward Laser Cooling of Thulium-Doped Fibers. Laser Cooling of Solids around 2.07 Microns: A Theoretical Investigation. Optically Cooled Lasers. Methods for Laser Cooling of Solids. Deep Laser Cooling of Rare-Earth Doped Crystals by Stimulated Raman Adiabatic Passage. Bulk Cooling Efficiency Measurements of Yb Doped Fluoride Single Crystals and Energy-Transfer Assisted Anti-Stokes Cooling in Co-doped Fluorides. Interferometric Measurement of Laser Induced Temperature Changes. Fluoride Glasses and Fibers. Crystal Growth of Fluoride Single Crystals for Optical Refrigeration. Microscopic Theory of Optical Refrigeration of Semiconductors. Coulomb-Assisted Laser Cooling of Piezoelectric Semiconductors.

Read more less

Book SynopsisThe literature so far has reviewed only single-crystal and, up to some extent, optical ceramic scintillators. This book introduces and describes in detail the research and development in thin film scintillators, glass ceramics, as well as nanocomposite and optical ceramics prepared by spark plasma sintering. It also features example of an in-depth study of a ZnO-based powder phosphor material. Both technology description and various characterization aspects are provided together with application hints.No other book has been published so far that includes and reviews the scintillator materials covered in this book with their specific technologies. Moreover, technological description is merged with detailed characterization, and the application potential is discussed as well. This book is intended for a wide audience, including postgraduate and PhD students and scientists working in the field of scintillators and phosphors. The extended introductory text, which has a textbook character, will be of immense benefit to students and non-specialists, too.Trade Review"This book gives an excellent introduction to all aspects involving scintillators. More importantly, it provides an in-depth review of rapid recent developments that have changed the field of scintillators. The transition from expensive single-crystal scintillators towards new, more versatile and cheaper scintillator manufacturing methods are comprehensively discussed by leading experts in the field. The book is a timely contribution that provides the first comprehensive overview of game-changing developments in the field of scintillators in the past two decades. For both experts in the field and people entering the field of scintillators the book is an indispensable source of information."—Prof. Andries Meijerink, Utrecht University, The Netherlands"This is a timely book as a number of enabling technologies have revolutionized the science of scintillators in the last two decades. What was considered as interesting theoretical speculation until recently is now feasible through impressive technological breakthroughs, in particular in the domain of nanotechnologies. The emergence of scintillators in the form of nanocomposites, ceramics, and thin films opens completely new perspectives for novel designs of radiation detectors in a large domain of applications. This book, by one of the best experts worldwide, will be a reference for a new generation of students and scientists interested in the fundamentals of the science of scintillators as well as in the development of scintillator-based detectors for various applications." —Prof. Paul Lecoq, CERN, SwitzerlandTable of ContentsIntroduction@fundamentals. Nanoparticle Scintillators, Nanocomposites. Glass Ceramic Scintillators. Ceramic Scintillators by Spark Plasma Sintering Technology. Thin-Film Scintillators by Liquid Phase Epitaxy. Pb2+ and Bi3+ Centers in Complex Oxide Thin Films Prepared by Liquid Phase Epitaxy. ZnO-based Powder Phosphors.

Read more less

Book SynopsisUnraveling the mystery of the negative thermal expansion of liquid water has been a challenge for scientists for centuries. Various theories have been proposed so far, but none has been able to solve this mystery. Since the thermodynamic properties of matter are determined by the interaction between particles, the mystery can be solved fundamentally if the thermodynamic physical quantities using the laws of thermodynamics and statistical mechanics are determined, the experimental results are reproduced, and the phenomena in relation to the shape of the interaction between particles are elucidated. In this sense, this book has fundamentally unraveled this mystery. In addition, it discusses the mysteries of isothermal compressibility, structural diversity, as well as liquefaction and boiling points of water in relation to the shape of the interaction between particles. It carefully explains the analysis and calculation methods so that they can be easily understood by the readers. Table of Contents1. Statistical Mechanics and Thermodynamics of Fluids 2. Strange Temperature Change of Water Density 3. Fundamental Clarification of Thermodynamic Phenomena in Water 4. Variety of Shapes of Water-Molecule Interactions 5. Ornstein-Zernike Equation 6. Calculation Procedure of SCOZA 7. Pressure and Chemical Potential 8. Thermodynamic Properties of Subcritical Fluids

Read more less

Book SynopsisIntroduction to Nanoparticle Delivery in Cancer Therapy.- Understanding Cancer Biology and Microenviron.- Design and Characterization of Nanoparticle Delivery Systems.- Targeting Strategies in Nanoparticle Drug Delivery.- Nanocarriers for Chemotherapy and Drug Delivery.- Immunotherapy Advancements using Nanoparticles.- Nanotechnology for RNA and DNA Delivery in Cancer Therapeutics.

Read more less

Book SynopsisIntroduction: Green Materials and Sustainability in Active Food Packaging.- Biopolymers in Active Food Packaging: Current Landscape and Future Directions.- Biodegradable polymers for the preparation of active food packaging.- Antimicrobial Biopolymers for Food Preservation: Recent Developments and Applications based on Essential oils and Nanomaterials.- Designing Smart and Sustainable Edible Packaging Materials from Biopolymers, Proteins, and Polysaccharides.- Replacement of conventional packaging materials with green polymers.- Advances in Polymer Nanocomposites for Active Food Packing.- Sustainable Coatings and Films for Active Food Packaging.- Advances in Bio-based Barrier Materials for Active Food Packaging.- Bioactive Compounds in Active Food Packaging (ACP): Health and Safety Considerations.- Smart Sensors for Quality Monitoring in Green Packaging Solutions.- Edible Packaging: Novel Approaches for Food Protection and Sustainability.- Eco-friendly active packaging for fresh and minimally processed fruits and vegetables.- Active Packaging for Convenience Foods: Enhancing Quality and Sustainability.- Natural Dyes for the coloration of food packaging.

Read more less

Book Synopsis

Read more less

Book SynopsisIntroduction.- Literature Source and Search Strategy.- Advantages of nanoparticles derived from marine flora.- Reducing and capping agents in marine flora.- Morphology and identification of nanoparticles.- Factors affecting the synthesis of nanoparticles.- Mechanism of nanoparticle synthesis from marine flora.- Applications of marine floraderived nanoparticles (MFNPs).- Enhancing biological properties of nanoparticles by Conjugation.

Read more less