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In 1947, it was discovered that multiple scattering theory (MST) can be used to solve the Schröedinger equation for the stationary states of electrons in a solid. Written by experts in the field, J S Faulkner, G Malcolm Stocks and Yang Wang, this book collates the results of numerous studies in the field of MST and provides a comprehensive, systematic approach to it. For many scientists, students and engineers working with multiple scattering programmes, this will be a useful guide to help expand the existing knowledge of MST as well as understanding its future implications.
Generalized Hypergeometric Functions explores the way in which hypergeometric functions are interlinked with special functions, and it uses group theory to illustrate these relationships. The application of group theory to the study of special functions is a relatively new approach to the subject area. It is a departure from most of the standard text books, which deal with the special functions as disjointed chapters, with each chapter dealing with the properties of the given special function.
Gamma-ray Burst Correlations presents an overview of the observational correlations; their physical interpretations, their use as redshift estimators, and their potential use as cosmological tools. The author describes the existing correlations as well as broaching the possible meaning and controversy behind the results of several GRB correlations.
This text introduces the subject of Mott insulators and reviews present knowledge in the field, enabling students and researchers to get acquainted with this very interesting and emerging area of science and technology.
Lens Design: Automatic and quasi-autonomous computational methods and techniques is the first book that interactively describes the newest lens design tools. Detailing design methods for a variety of lens forms, this book shows that fixed focus and zoom lenses can be optimized, and it will help experienced and aspiring lens designers to develop excellent designs henceforth.
Modern optics is the physics of two-by-two matrices and harmonic oscillators. The one- and two-photon coherent states are based on the mathematics of harmonic oscillators. This comprehensive book examines the mathematical details of how two-by-two matrices, Wigner functions and the Lorentz group can be implemented in classical and quantum optics.
Regenerative biology and medicine is a rapidly developing field that can revolutionize medicine. This book introduces the essentials of regenerative biology and medicine to advanced undergraduates and beginning graduate students, as well as students and professionals outside the field who need (and want) an introduction to the subject.
Electromechanical Machinery Theory and Performance presents a detailed explanation of electromagnetic machines, giving specific focus on transformers and AC rotating machines that can be used in the preservation and transference of energy and power. This book is developed for students at both graduate and undergraduate level, and can be used by practicing engineers as well.
This book is describes Wigner functions and its applications in various fields of science where it has been found to be very useful in wide range of modern disciplines, including quantum information, coherent optics, and superconducting qubits.
As fascinating and unexplainable as the universe appears to be, there are also an incredible amount of similarities between the universe and the everyday world and we are constantly evolving to discover more about these incredible parallels as this book unveils. For those with a fascination in the world around us, as well as undergraduate and graduate students, researchers and anyone who wishes to gain better physical insight of the discussed phenomena, this book offers a simplified approach to the beautiful world around us.
Offering fresh insight into a rapidly growing field, Wearable Communication Systems and Antennas for Commercial, Sport and Medical Applications provides useful information for students, engineers and researchers with an interest in wearable communication devices and antennas.
Written for postgraduate students as a pedagogical introduction to string theory. Extending beyond an introductory review of the subject, it encompasses key analytical and numerical tools, as well as useful physical models in applications. The book is augmented with numerous codes in addition to problems and exercises.
This graduate-level book explains how the spectroscopic probes, which examine excitations in various phases of matter, are modeled within the quantum theory and how their outcome is interpreted as the collective response of many interacting particles in thermal equilibrium. Practical examples are accompanied by computer codes to support the presentation.
This revised second edition is improved linguistically with multiple increases of the number of figures and the inclusion of several novel chapters such as actin filaments during matrix invasion, microtubuli during migration and matrix invasion, nuclear deformability during migration and matrix invasion, and the active role of the tumor stroma in regulating cell invasion.
As one of the most prominent diseases in our society, Cardio Vascular Disease (CVD) requires dedicated analysis and investigation to reduce the increasing mortality rate worldwide. Scholars, biomedical engineers and medical practitioners will greatly benefit from the detailed information in this book which gives a better understanding of the causes, diagnosis and treatment of CVD.
As one of the most prominent diseases in our society, Cardio Vascular Disease (CVD) requires dedicated analysis and investigation to reduce the increasing mortality rate worldwide. Scholars, biomedical engineers and medical practitioners will greatly benefit from the detailed information in this book which gives a better understanding of the causes, diagnosis and treatment of CVD.
This book serves as an excellent stepping stone from introductory physics to graduate-level physics, it provides a level field for the various techniques used to solve problems in classical mechanics, it explains the Lagrangian and Hamiltonian methods more simply, and is a must for junior and senior physics undergraduates.
Building on the earlier edition it now encapsulates the substantial developments that have been made in supersymmetric quantum mechanics in recent years. Aimed at graduate students and scientists this book provides a thorough review supersymmetric quantum mechanics and now includes problems and solutions.
Aimed at scientists and engineers who specialise in integrated electro-mechanical drives, as well as researchers and students, this fundamental guide to the practical applications of mechatronics is applicable to transportation systems, industrial production processes, aerospace, aviation and automotive industries.
This book concerns precise measurements and their inherent uncertainty,with an emphasis on time and frequency measurement. Improvements in theaccurate measurement of time and frequency play a pivotal role in thedevelopment of modern science and our questioning of the fundamentals ofour universe.
This book contains a summary of the latest experimental and theoretical results on matter at high pressure and temperature. Providing critical analysis of data and models ranging from matter in extreme states in the laboratory, relativistic heavy ion collisions, strongly coupled electromagnetic plasma, and extreme matter in astrophysics.
Commencing by defining a set of standards for benchmarkingthis book then proceeds to provide a review of the physics and workings of several optical and super optical biosensors, and introduces two more superoptical biosensors. Mathcad is used to analyse these virtual biosensors andthese codes and available to readers for use in their own research.
This volume focuses on thin-film transistors (TFTs) and their properties, as well as covering field effect transistors (FETs), including electrolyte-gated field-effect transistors such as EGOFETs and OECFETs.
This volume focuses on energy devices such as supercapacitors, batteries, energy harvesters, solar cells, and the applications of flexible electronics in displays and light-emission devices, CNT field emitters, sensors, memories, antennas and RFID tags.
Measurement of values are fundamental in science and technology. Masatoshi's book includes the importance of uncertainty, accuracy and precision of measurement and explains how laser technology has helped improve measurement and in redefining standards. SI units, standards and the importance of lasers for measurement in modern metrology are covered, including the redefinition of the SI units over time.
In response to the growing global health challenge in the fight against cancer, there is now a greater need for radiation oncology health professionals across institutions to collaborate and be more globally engaged. Emerging Models for Global Health in Radiation Oncology is a response to the need for a book that comprehensively covers the important and emerging field of radiation oncology. The recent World Health Organization (WHO) Cancer Report describes the growing global burden of cancer as alarming, a major obstacle to human development and well-being, with a growing annual economic cost of ca. US$1.16 trillion. The report also highlights major global cancer disparities, and these major disparities in cancer deaths are in part a reflection of poignant underlying differences in radiation oncology services. In parallel with this, there has been a major recent upsurge in radiation oncology global health interest and a common issue expressed at global health summits, seminars, and symposia is that people want to participate in global health but do not know how. This insightful book highlights the emerging models for global radiation oncology, and serves as a useful resource to facilitate participation and greater effective collaborative global cancer care, research, education, and outreach. It is suitable for researchers, students, health professionals, and anyone interested in the global oncology community.
Advanced Digital Imaging Laboratory Using MATLAB(R), second edition, expands on the practical experience in digital imaging techniques covered by the first edition and includes formulation of the major theoretical results that underlie the exercises as well as introducing modern concepts and new techniques and numerous MATLAB(R) exercises.
Charged Beam Dynamics, Particle Accelerators and Free Electron Lasers summarises different topics in the field of accelerators and of Free Electron Laser (FEL) devices. It is the result of the considerable research activities of the authors at the Frascati Laboratories, which gathers together some of the most significant Italian research institutions. This environment has provided the conditions to merge different expertise, allowing the growth and the maturation of the FEL technologies in their various aspects, with the synergic superposition of fields of research such as accelerators, lasers, and magnetic material.This book is intended as a reference manual for the different aspects of FEL devices, explaining how to design both a FEL device and the accelerator providing the driving beam. It covers both theoretical and experimental aspects, allowing researchers to attempt a first design of a FEL device in different operating conditions. It provides an analysis of what is already available, what is needed, and what the challenges are to determine new progress in this field. All chapters contain complements and exercises that are designed in such a way that the reader will gradually acquire self-confidence with the matter treated in the book.
The material presented in this book is at the cutting-edge of global oncology and provides highly illuminating examples, addresses frequently asked questions, and provides information and a reference for future work in global oncology care, research, education, and outreach.
This book covers the principles, advantages and potential pitfalls that occur in proton therapy, especially its radiobiological modelling applications. It is intended to educate, inform and stimulate further research questions by blending the relevant physics, biology and medical aspects of this multidisciplinary subject.
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