Bøker utgitt av Institute of Physics Publishing

In the course of only a few decades computers have revolutionized scientific research and more and more scientists are writing computer programs for doing their work. In spite of the ubiquitous use of computers in science, few researchers in the natural sciences have any schooling in computer science, software engineering, or numerical analysis. They usually acquire their computing knowledge "on the job" and often feel overwhelmed by the amount of computing knowledge they must absorb. Computation in Science provides a background in computation for scientists who use computational methods. The book explains how computing is used in the natural sciences and provides a high-level overview of relevant aspects of computer science and software engineering with a focus on concepts, results, and applications. The goal of this book is to explain these basic principles, and to show how they relate to the tasks of a scientist''s daily work in a language familiar to them. Its unique feature is in connecting the dots between computational science, the theory of computation and information, and software engineering. It will compensate for the general lack of any formal training in computer science and information theory allowing readers to achieve a better understand how they use computers in their work, and how computers work. Readers will learn to use computers with more confidence, and to see computing technologies in a different light, evaluating them based on how they contribute to doing science.This new edition has been significantly updated and extended to reflect developments in scientific computing, including new examples and references. It also includes a new chapter on reproducibility which reflects the importance that computational reproducibility. Accompanied by a website maintained by the author, which hosts companion code and supplementary material, it is intended for both graduate students and experienced scientists. Some hands-on experience with computing is highly desirable, but no competence in any specific computing technology is expected.Key FeaturesSignificantly updated and enhanced, including a new chapter on reproducibility, it''s one of the first books to include this in the era of the "reproducibility crisis"Updated references to include the latest research resultsAccessible to a broad range of physical and life scientists with no formal training in computingWritten for both graduate students and experienced scientistsSupported by the website http://computation-in-science.khinsen.net/ with updates, links to useful sites and software

This book looks at analysis and modelling of active biopotential signal processing. It emphasises the real-time challenges in biomedical signal processing that occur due to the complex and non-stationary nature of signals in a variety of applications for analysis, classification and identification of different states for improvement of healthcare systems. The main focus of the book is on modelling; acquisition of biomedical signals for different disorders; implementation of methodologies and their impact on different cases; case studies and research directions; automatic identification of related disorders; design and simulation examples; and issues and challenges. Overall, the book addresses the real-time challenges in biomedical signal processing used in a variety of applications such as analysis, classification and identification of different disorders in healthcare systems. It is a valuable guide for all researchers and practitioners who are engaged in studies and research in the area of biomedical signals and their applications. Key Features Modelling and acquisition of biomedical signals for different disordersImplementation of methodologies and their impact on different casesCase studies and research directionsDesign and simulation examples

This graduate textbook introduces the physics and applications of transport in mesoscopic devices and nanoscale electronic systems and devices. Fully updated and contains the latest research in the field, including nano-devices for qubits. Worked examples, problems, solutions and videos are provided to enhance understanding.

Advances in wide bandgap semiconductor materials are enabling the development of a new generation of power semiconductor devices that far exceed the performance of silicon-based devices. These technologies offer potential breakthrough performance for a wide range of applications, including high-power and RF electronics, deep-UV optoelectronics, quantum information and extreme-environment applications.This reference text provides comprehensive coverage of the challenges and latest research in wide and ultra-wide bandgap semiconductors. Leading researchers from around the world provide reviews on the latest development of materials and devices in these systems.The book is an essential reference for researchers and practitioners in the field of wide bandgap semiconductors and power electronics, and valuable supplementary reading for advanced courses in these areas.Key Features Provides comprehensive coverage of wide bandgap semiconductor-based electronicsCovers both materials and devicesIncludes cutting-edge research not covered in other booksVery experienced editors - they have produced 19 other books in related areas

This book is an essential introduction to the basic principles of radiation protection and aerosol physics, including applications within international and UK law for the protection of the public against the dangers arising from ionising radiation. The text also discusses the difficulties with the monitoring and the health detriment associated with problematic radionuclides.

This book on the laboratory teaching of optics is based on the author's experience during many years in several universities and colleges. It describes basic experiments in optics that are suitable for student laboratories at undergraduate and graduate levels and do not require specialized equipment or measurement techniques.

Classical Mechanics: A professor-student collaboration is a textbook tailored for undergraduate physics students embarking on a first-year module in Newtonian mechanics. This book is a collaboration between Mario Campanelli and students that attended his course in classical mechanics at University College London, based on the course lecture notes w

This book is primarily devoted to recent advances in applying the approximate analytical method of the separation of rapid and slow subsystems to other quantum realms. These results are practically important in the quest for achieving controlled nuclear fusion on Earth, as well as expanding practical applications of lasers and other related fields.

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.

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.

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.

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.

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.

This volume covers the mechanical aspects of hard-film/soft-substrate structures and the impacts of stress and strain, including deformation and cycling of ductile films, and straining permeation barriers.

An excellent resource for students studying solid state science, as well as researchers and industry specialists, this book provides a deeper understanding of the benefits, drawbacks and overlap within different characterisation techniques, and it bridges the gap between theory and implementation by including informative exercises for readers and presenting a comprehensive overview of various characterisation techniques involved in solid state research.

Laser Safety: Practical knowledge and solutions provides an in-depth guide to laser safety for a wide variety of people who work regularly with lasers and similar products. The authors provide useful techniques and methods to create a safe working environment for laser culture and answer a number of laser user concerns seldom addressed. This book will be relevant to students, researchers and laser physicists.

This comprehensive review provides a detailed insight into renewable energy options, their current state of development and how they can provide an environmentally sustainable energy future. This second edition is extensively revised and includes the latest advances in the field.

Statistical Mechanics: Problems with Solutions contains detailed model solutions to the exercise problems formulated in the companion Lecture Notes volume. In many cases, the solutions include result discussions that enhance the lecture material. For reader's convenience, the problem assignments are reproduced in this volume.

Statistical Mechanics: Lecture Notes, is intended to be the basis for a one-semester graduate-level course,

Anyoneteaching physical biochemistry or structural biology will find this to be aconcise and thorough guide for their lectures on protein-protein association.Students and researchers will appreciate the clarity of presentation offundamental concepts, and the guided reading of informative classic papers.

Particle tracking velocimetry (PTV) is one of the latest and mostpowerful flow visualization techniques, using numerous cameras to track flowtracers in two or three dimensions. This book provides a review of both experimentaland computational aspects of PTV for academicand industrial researchers and engineers.

This book offers a detailed introduction into the field of quantum mechanics applied to nuclear structure, and is intended for as a primer for nuclear physics graduate students and postgraduate students seeking a solid foundation in the subject.

A learning and revision resource for those studying for radiology fellowship examinations. Updated with more than 50 new questions, and a new chapter on functional and molecular imaging.

A Course on Digital Image Processing with MATLAB(R) describes the principles and techniques of image processing using MATLAB(R). Every chapter is accompanied by a collection of exercises and programming assignments, the book is augmented with supplementary MATLAB code, and hints and solutions to problems are also provided.

This volume covers the state-of-the-art topics that investigate two significant neurological disorders, autism apectrum disorder (ASD) and Alzheimer's disease (AD), from the theoretical perspective and also focuses on the practical aspects. The materials are presented in a way that can be beneficial to both advanced and layman readers.

This book reflects the broad advances that have been made in the field of medical dosimetry and medical radiation protection, and it provides information about the practical use of new information in radiation dose management of pregnant patients, pregnant staff and paediatric patients in diagnostic and interventional radiology.

An introduction to the statistical thermodynamics of phase transitions in crystallized solids, polymers and liquid crystals. Written as an introductory treatise with respect to the soliton concept, the book examines structural transitions where the crystal symmetry changes, magnets and superconductors, and describes the role of nonlinear excitations in detail.

Semiconductorsform the basis for the nano-electronics industry that powers everyday life. This book covers the electronic bandstructure, the lattice dynamics and the transport properties ofsemiconductors, and is an essential guidefor first-year graduate level students.