Finite Temperature Field Theory (Second Edition)
This book discusses all three formalisms used in the study of finite temperature field theory, namely the imaginary time formalism, the closed time formalism and thermofield dynamics. In addition, the finite temperature description on an arbitrary path in the complex t-plane is also described in detail. Gauge field theories and symmetry restoration at finite temperature are among the practical examples discussed in depth. The thermal operator representation relating the zero temperature Feynman graphs to the finite temperature ones are also explained in depth. Applications of the formalisms are worked out in detail. The consistent generalization of light-front field theories to finite temperature is systematically explained as well as the phenomenon of Unruh radiation. Cutting (Cutcosky) rules for the imaginary parts of amplitudes at finite temperature are discussed in careful detail and examples are worked out. Spontaneous and dynamical symmetry breaking and possible symmetry restoration at finite temperature are described. The question of gauge dependence of the effective potential as well as physical parameters (like mass) and the Nielsen identities are explained with examples. The methods for calculating effective actions at finite temperature are described with examples. The subtleties which arise at finite temperature are pointed out in detail also with examples. The nonrestoration of some of the symmetries at high temperature (such as supersymmetry) and theories on nonsimply connected space-times are described thoroughly. Examples of nonequilibrium phenomena are discussed with the disoriented chiral condensates as an illustration. Fluctuation-dissipation theorem is explained in detail and is worked out systematically for glassy materials. Several appendices are added at the end of some of the chapters to help the readers appreciate the discussions of the individual chapters.This book is a very useful tool for graduate students, teachers and researchers in theoretical physics.
Spin in Gravity - Is It Possible to Give an Experimental Basis to Torsion?
The introduction of spin is believed to be a necessary tool if one wishes to quantize general relativity. Then the main problem is to see if the introduction of spin generalizing the general relativity from a geometric point of view, i.e. through the concept of torsion, can be experimentally verified.The reader can find in this book both theoretical and experimental arguments which show the necessity for the introduction of spin, and then of torsion, in gravity. In fact, torsion constitutes the more natural and simple way to introduce spin in general relativity. For that reason it is of fundamental importance to see if there are some experiences that indicate - if not directly, then at least indirectly - the presence of torsion. This book presents a discussion on experiments with a polarized-mass torsion pendulum, the search for galactic dark matter interacting with a spin pendulum, a description of a space-based method for determination of the gravitational constant and space-based measurements of spin in gravity, as well as a discussion on theoretical arguments, for instance the nature of torsion and nonmetricity, the viability of gravitational theories with spin-torsion and spin-spin interaction, many-dimensional gravitational theories with torsion, spinors on curved spaces, the spinors in real space-time, etc.We know that until now there has been no evidence for torsion, but this fact cannot prevent us from considering in some detail this implement of research that seems to be important from both a geometrical and a physical point of view.
Computational Methods in Physics and Engineering (2nd Edition)
Thermophysical Properties of Fluids: An Introduction to Their Prediction
Introduction to Supersymmetry and Supergravity (Revised and Extended 2nd Edition)
Computational Methods in Physics and Engineering (2nd Edition)
Introduction to Electroweak Unification: Standard Model from Tree Unitarity
Some Elementary Gauge Theory Concepts
Gauge theory, which underlies modern particle physics as well as the theory of gravity, and hence all of physics as we know it today, is itself based on a few fundamental concepts, the consequences of which are often as beautiful as they are deep. Unfortunately, in view of the pressure to cover aspects of the theory that are necessary for its many important applications, very little space is usually devoted in textbooks and graduate courses to the treatment of these concepts. The present small volume is an attempt to help in some degree to redress this imbalance in the literature.The topics covered are elementary in the sense of being basic, not in the sense of being shallow or easy. Although all will already feature at the classical field level, and most even before the introduction of an action principle, they often lead one to pose some quite profound questions, so that much of the material treated is by necessity at the front line of research. The approach adopted is physically motivated, although there is no hesitation in introducing mathematical concepts when they are a help to understanding. In the presentation, little is assumed of the reader, and no pains has been spared to make the whole volume understandable to researchers in other fields and to graduate students, provided that the reader is willing to devote sufficient effort required by the subject matter. On the other hand, neither has there been any conscious attempt to avoid essential difficulties, or to trivialise concepts which are intrinsically abstruse. It is thus hoped that the result will be enjoyable reading for researchers and students alike.
Knots and Physics (Second Edition)
This book is an introduction to knot and link invariants as generalized amplitudes (vacuum-vacuum amplitudes) for a quasi-physical process. The demands of knot theory, coupled with a quantum statistical framework, create a context that naturally and powerfully includes an extraordinary range of interrelated topics in topology and mathematical physics. The author takes a primarily combinatorial stance toward knot theory and its relations with these subjects. This has the advantage of providing very direct access to the algebra and to the combinatorial topology, as well as the physical ideas. This book is divided into 2 parts: Part I of the book is a systematic course in knots and physics starting from the ground up. Part II is a set of lectures on various topics related to and sometimes based on Part I. Part II also explores some side-topics such as frictional properties of knots, relations with combinatorics and knots in dynamical systems.
Photovoltaic (Pv) System Delivery as Reliable Energy Infrastructure
A practical guide to improving photovoltaic power plant lifecycle performance and output Photovoltaic (PV) System Delivery as Reliable Energy Infrastructure introduces a Preemptive Analytical Maintenance (PAM) for photovoltaic systems engineering, and the Repowering(TM) planning approach, as a structured integrated system delivery process. A team of veteran photovoltaics professionals delivers a robust discussion of the lessons learned from mature industries--including PV, aerospace, utilities, rail, marine, and automotive--as applied to the photovoltaic industry. The book offers real-world "technical and fiscal" examples of the impact of photovoltaics to all stakeholders during the concept, specification, operations, maintenance, and Repowering(TM) phases. In each chapter, readers will learn to develop RAMS specifications, reliability data collection, and tasks while becoming familiar with the inherent benefits of how these affect the cost of design and development, maintenance, spares, and systems operation. The authors also explain when and how to consider and implement Repowering(TM), plant upgrades and the considerations from concept through retirement and disposal of the plant. Readers will also find: A thorough introduction to Preemptive Analytical Maintenance (PAM), including systems engineering, lifecycle planning, risk management, risk assessment, risk reduction, as compared to the historic utility models, An in-depth treatment of the modern photovoltaic industry, including economic factors and the present endlessly evolving state of technology, Constructive discussions and application of systems engineering, including RAMS and System Engineering practices and solutions, Extensive explorations and application of data collection, curation, and analysis for PV systems, including advanced sensor technologies. Perfect for all new through to experienced photovoltaic design and specification engineers, photovoltaic plant owners, operators, PV asset managers and all interested stakeholders. Photovoltaic (PV) System Delivery as Reliable Energy Infrastructure will also earn a place in the libraries of utilities, engineering, procurements, construction professionals and students.
Engineered Biomaterials
This book highlights recent advances focusing on the synthesis methods of engineered biomaterials and their applications. The book discusses recent applications of various approaches and technology in improving the functional properties and biological activities of biopolymers. It includes two major sections: the first section introduces a range of methods which lead to materials with enhanced properties for a range of practical applications, along with the positives and limitations of the techniques. The second section covers recent trends and advances in application of engineered biomaterials that assist materials scientists and researchers in mapping out the future of these new improved materials through value addition in order to enhance their use. Contributions in the book are done by prominent researchers from industry, academia, and government/private research laboratories across the globe. The book summarizes in a fairly comprehensive manner many of the recent technical advancements in the area of biopolymers. The book is intended to serve as a reference resource in the area of polymers science.
A Textbook of General Astronomy for Colleges and Scientific Schools
A Textbook of General Astronomy for Colleges and Scientific Schools, is a classical and a rare book, that has been considered important throughout the human history, and so that this work is never forgotten we at Alpha Editions have made efforts in its preservation by republishing this book in a modern format for present and future generations. This whole book has been reformatted, retyped and redesigned. These books are not made of scanned copies of their original work, and hence their text is clear and readable. This remarkable volume falls within the genres of Science Astronomy
Round the year with the stars; The chief beauties of the starry heavens as seen with the naked eye
Round the year with the stars; The chief beauties of the starry heavens as seen with the naked eye, is a classical and a rare book, that has been considered important throughout the human history, and so that this work is never forgotten we at Alpha Editions have made efforts in its preservation by republishing this book in a modern format for present and future generations. This whole book has been reformatted, retyped and redesigned. These books are not made of scanned copies of their original work, and hence their text is clear and readable. This remarkable volume falls within the genres of Science Astronomy
The Royal Observatory, Greenwich
The Royal Observatory, Greenwich: A Glance at Its History and Work, is a classical and a rare book, that has been considered important throughout the human history, and so that this work is never forgotten we at Alpha Editions have made efforts in its preservation by republishing this book in a modern format for present and future generations. This whole book has been reformatted, retyped and redesigned. These books are not made of scanned copies of their original work, and hence their text is clear and readable. This remarkable volume falls within the genres of Science Astronomy
Side-Lights on Astronomy and Kindred Fields of Popular Science
Side-Lights on Astronomy and Kindred Fields of Popular Science, is a classical and a rare book, that has been considered important throughout the human history, and so that this work is never forgotten we at Alpha Editions have made efforts in its preservation by republishing this book in a modern format for present and future generations. This whole book has been reformatted, retyped and redesigned. These books are not made of scanned copies of their original work, and hence their text is clear and readable. This remarkable volume falls within the genres of Science Astronomy
A Text-Book of Astronomy
A Text-Book of Astronomy, is a classical and a rare book, that has been considered important throughout the human history, and so that this work is never forgotten we at Alpha Editions have made efforts in its preservation by republishing this book in a modern format for present and future generations. This whole book has been reformatted, retyped and redesigned. These books are not made of scanned copies of their original work, and hence their text is clear and readable. This remarkable volume falls within the genres of Science Astronomy
Information Dynamics
This wide-ranging book introduces information as a key concept not only in physics, from quantum mechanics to thermodynamics, but also in the neighboring sciences and in the humanities. The central part analyzes dynamical processes as manifestations of information flows between microscopic and macroscopic scales and between systems and their environment. Quantum mechanics is interpreted as a reconstruction of mechanics based on fundamental limitations of information processing on the smallest scales. These become particularly manifest in quantum chaos and in quantum computing. Covering subjects such as causality, prediction, undecidability, chaos, and quantum randomness, the book also provides an information-theoretical view of predictability. More than 180 illustrations visualize the concepts and arguments. The book takes inspiration from the author's graduate-level topical lecture but is also well suited for undergraduate studies and is a valuable resource for researchers and professionals.
Aspects of Music
This study focuses on a continued evaluation and integration of Schenker's work, specifically the role of his ever-deepening understanding of counterpoint in musicalistic structures, both horizontal (melodic) and vertical ('chordal'). It reformulates the role of this understanding in discerning the atomic, primitive elements of an abstract human species-specific, cognitive-computational process. We conjecture that the fundamental technical concepts of counterpoint plausibly form the basis of natural musical logic and coherence and somehow reflect the basis of a representing system for a generative capacity evidenced in the creation and interpretation of musicalistic expressions. It is plausible to assume that a thorough investigation of the musical generating principles of consonance and dissonance, as developed through the technical perspective of species counterpoint, can lead to surprising insights necessary for the formulation of a general theory of music. Music, like language, is obviously an extremely complex system. Music theory must simplify this complexity and endeavour to discover its primitive elements which can be used to develop a systematic representation of levels that contributes to greater descriptive and explanatory salience of musicalistic structure.
Aspects of Music
This study focuses on a continued evaluation and integration of Schenker's work, specifically the role of his ever-deepening understanding of counterpoint in musicalistic structures, both horizontal (melodic) and vertical ('chordal'). It reformulates the role of this understanding in discerning the atomic, primitive elements of an abstract human species-specific, cognitive-computational process. We conjecture that the fundamental technical concepts of counterpoint plausibly form the basis of natural musical logic and coherence and somehow reflect the basis of a representing system for a generative capacity evidenced in the creation and interpretation of musicalistic expressions. It is plausible to assume that a thorough investigation of the musical generating principles of consonance and dissonance, as developed through the technical perspective of species counterpoint, can lead to surprising insights necessary for the formulation of a general theory of music. Music, like language, is obviously an extremely complex system. Music theory must simplify this complexity and endeavour to discover its primitive elements which can be used to develop a systematic representation of levels that contributes to greater descriptive and explanatory salience of musicalistic structure.
Continuum Modeling from Thermodynamics
This book presents a novel comprehensive thermodynamic framework, suitable for the design of new macroscopic models, as well as the combination of existing models. Our goal is to popularize thermodynamics for model designers. The example series of models includes very classic solid and fluid models, such as Newtonian, viscoplastic and viscoelastic materials, but also new heat effects and original combinations of existing models. The aim of the new proposed framework is to allow a clear and easy development of constitutive equations that automatically satisfy the second principle. Instead of writing directly constitutive relations, model designers are encouraged to first specify the energy. This book is primarily intended for graduate students and researchers in applied mathematics, engineering sciences, computational mechanics and physics. The reader is assumed to be familiar with classical mechanics, together with matrix and tensors algebra.
Heat Carriers in Liquids: An Introduction
This book provides a succinct overview of recent progress in characterization of heat carriers describing atomic motion in liquids. Unlike solids and gases where heat carriers are typically described by phonons and real atomic particles, the nature of effective heat carriers in liquids is still elusive. The emphasis is on two widely used spectral methods to describe heat carriers: instantaneous normal modes and velocity autocorrelation functions. Various bulk materials properties from a bottom-up perspective using these spectra are presented in detail. This book is an ideal introduction to the field for graduate students and young researchers.
An Introduction to the Physics of Nuclei and Particles (Second Edition)
This textbook provides an up-to-date introduction to nuclear and particle physics and is aimed at upper-level undergraduate students with a basic knowledge of quantum mechanics.
A Primer of Mathematical Analysis and the Foundations of Computation
This book is a different approach to teaching the foundations of mathematical analysis and of computation. The main idea is to delay the use of "formal definitions", which are definitions that nobody can understand without working with them. The approach of this book is to employ the history of mathematics to first develop fundamental concepts of mathematical analysis and the theory of computation and to only introduce formal definitions after the concepts are understood by the students.The historical order clarifies what analysis is really about and also why the theory of computation came about. The book provides students with a broader background involving for instance glimpses of cardinal arithmetic, predicate logic background, as well as the importance of a sound theory of the infinitesimal (which is in essence the foundations of mathematics and computation).There is a wealth of exercises and numerous graphical illustrations which give an experienced instructor lots of possibilities to select a stimulating course with a broader background. Even for just browsing by general readers, this book presents stories, insights and mathematical theories, covering a window of ancient times to the present.The book is self explanatory and self sufficient, so any staff member in the departments of mathematics or computer science can teach this course.This book will give the students the right techniques and skills to work with mathematical analysis and the theory of computation and to go on further to study more advanced courses on the subject.
Quantum Turbulence
Turbulence plays a crucial role in contexts ranging from galaxy formation to heavy atomic nuclei, from jet engines to arterial blood flow, challenging engineers, physicists, and mathematicians. Recently, turbulence of quantum fluids displaying superfluidity has emerged as an exciting area of interdisciplinary research that spans fluid dynamics, low-temperature physics, and Bose-Einstein condensation. The first book on quantum turbulence, this work describes state-of-the-art results and techniques, stressing analogies and differences with classical turbulence. The authors focus in particular on low temperature phases of liquid helium, drawing on evidence from recent experiments, theory, and numerical simulations. Written by leading figures in the field, this is a go-to reference for students and researchers at all levels.
Early Disk-Galaxy Formation from Jwst to the Milky Way (Iau S377)
Our comprehension of the assembly and evolution of galaxies has witnessed remarkable advancements in recent years. While the Gaia spacecraft has provided unprecedented knowledge of the Milky Way's assembly, the launch of the James Webb Space Telescope (JWST) has propelled the study of galaxy evolution into an exciting new era. Early discoveries of JWST have revealed high-redshift galaxies that defy our expectations. These conundrums must be resolved through multi-wavelength observations, simulations, and theoretical models as emphasized in this volume, which contains a selection of papers presented at IAU Symposium 377, held about two years after the launch of JWST. These papers showcase studies of galaxy formation, evolution, interaction, chemical abundances and stellar populations from cosmic down to the Milky Way. These proceedings offer an updated view of recent advances and current problems and is suitable for both active researchers in the field and graduate students.
Introduction to Nuclear Reactor Experiments
This open access book is a pedagogical text on nuclear reactor experiments, covering almost all the experiments that can be carried out at the University Training Reactor, Kindai University (UTR-KINKI) with respect to reactor physics and radiation detection, and additionally including academic materials of test and research reactors, nuclear instrumentation, nuclear laws and regulations, in this main body. The book is an excellent primer for students who are interested in reactor physics, radiation detection, nuclear laws and regulations at universities, and the best textbook for students who have started to study the nuclear energy related fields to understand the basic theories and principles of the experiments in the fields of reactor physics and radiation detection. UTR-KINKI has been used for educational reactor experiments and basic research in a wide range of fields related to the use of radiation (neutrons, gamma-ray, beta-ray, alpha-ray, and X-ray), including reactorphysics, radiation detection, radiation health physics, activation analysis, radiation biology, medical applications and archaeology. Also, UTR-KINKI has been actively engaged in nuclear education with its long history of operation, and has gained extensive experience in educational activities for undergraduate and graduate students, elementary, junior high and high school teachers, junior high and high school students, and general audiences.
Mathematical Methods Using Python
This advanced undergraduate textbook presents a new approach to teaching mathematical methods for scientists and engineers. It provides a practical, pedagogical introduction to utilizing Python in Mathematical and Computational Methods courses.
Elements of Mathematical Analysis
This book provides a comprehensive yet informal introduction to differentiating and integrating real functions with one variable. It also covers basic first-order differential equations and introduces higher-dimensional differentiation and integration. The focus is on significant theoretical proofs, accompanied by illustrative examples for clarity. A comprehensive bibliography aids deeper understanding. The concept of a function's differential is a central theme, relating to the "differential" within integrals. The discussion of indefinite integrals (collections of antiderivatives) precedes definite integrals, naturally connecting the two. The Appendix offers essential math formulas, exercise properties, and an in-depth exploration of continuity and differentiability. Select exercise solutions are provided. This book suits short introductory math courses for novice physics/engineering students. It equips them with vital differentialand integral calculus tools for real-world applications. It is also useful for first-year undergraduates, reinforcing advanced calculus foundations for better Physics comprehension.
The Fantastic Book of Physics Jokes; For Everyone, Not Just Physicists
For the lover of Physics, I am sure you will gravitate to this book with its electrifying intensity, this book tries to keep physics as light as possible. The series of Fantastic Jokes is now targeting all aspects of Physics, from famous physicists, and classical physics to quantum mechanics. We don't always make a joke about Quantum Physics, but when we do, we don't.This book is the opposite of friction and not a drag. Now, a word of caution must be had, some jokes are innocent, and some are rude & lewd, but none are meant to offend. As studies have shown, the darker your sense of humour, the more intelligent you may be. Remember you matter, unless you travel at the speed of light then you're energy."Imagination is more important than Knowledge." - Albert Einstein.
Geometry, Symmetries, and Classical Physics
This book provides advanced undergraduate physics and mathematics students with an accessible yet detailed understanding of the fundamentals of differential geometry and symmetries in classical physics.
Simplicius: On Aristotle Physics 1.1-2
With this translation, all 12 volumes of translation of Simplicius' commentary on Aristotle's Physics have been published (full list below). In Physics 1.1-2, Aristotle raises the question of the number and character of the first principles of nature and feels the need to oppose the challenge of the paradoxical Eleatic philosophers who had denied that there could be more than one unchanging thing. This volume, part of the groundbreaking Ancient Commentators on Aristotle series, translates into English for the first time Simplicius' commentary on this selected text, and includes a brief introduction, extensive explanatory notes, indexes and a bibliography. Previous published volumes translating Simplicius' commentary on Aristotle's Physics can all be found in Bloomsbury's series: - On Aristotle Physics 1.3-4, tr. P. Huby and C. C. W. Taylor, 2011- On Aristotle Physics 1.5-9, tr. H. Baltussen, M. Atkinson, M. Share and I. Mueller, 2012- On Aristotle Physics 2, tr. B. Fleet, 1997- On Aristotle Physics 3, tr. J. O. Urmson with P. Lautner, 2001- On Aristotle Physics 4.1-5 and 10-14, tr. J. O. Urmson, 1992- On Aristotle on the Void, tr. J. O. Urmson, 1994 (=Physics 4.6-9; published with Philoponus, On Aristotle Physics 5-8, tr. P. Lettinck)- On Aristotle Physics 5, tr. J. O. Urmson, 1997- On Aristotle Physics 6, tr. D. Konstan, 1989- On Aristotle Physics 7, tr. C. Hagen, 1994- On Aristotle Physics 8.1-5, tr. I. Bodnar, M. Chase and M. Share, 2012- On Aristotle Physics 8.6-10, tr. R. McKirahan, 2001
Numerical Methods
This book presents a pedagogical treatment of a range of numerical methods to suit the needs of undergraduate and postgraduate students, and teachers and researchers in physics, mathematics, and engineering. For each method, the derivation of the formula, error analysis, case studies, applications in science and engineering are covered.
