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A core text for advanced undergraduate courses in particle physics. This book covers the required mathematical and theoretical tools required for understanding the Standard Model of particle physics. It explains the accelerator and detector physics which are needed for the experiments that underpin the Standard Model.
A new and updated edition of the successful Statistical Mechanics: Entropy, Order Parameters and Complexity from 2006. Statistical mechanics is a core topic in modern physics. Innovative, fresh introduction to the broad range of topics of statistical mechanics today, by brilliant teacher and renowned researcher.
This book presents the fundamentals and predictions of kinetic theory, considering classical paradigmatic examples as well as modern applications.
Polymer electronics lies behind many important new developments in technology, such as the flexible electronic display (e-ink) and modern transistor technology. This book presents a thorough discussion of the physics and chemistry behind this exciting field, appealing to all physical scientists with an interest in polymer electronics.
This text is a very concise modern introduction to complex networks based on lectures for university students and non-specialists. The text fills the gap between popular science books and comprehensive reference volumes. The book describes the current state of the art in complex networks and will be useful for teaching and self-study.
The book treats microfluidics theory and its applications to lab-on-a-chip systems. It covers fluid dynamics and how to control flows and solutions in microsystems with various external fields. Containing a broad range of exercises, the text is developed for advanced undergraduates, intending to enable the students to confront real problems.
Sethna's book distills the core ideas of statistical mechanics to make room for new advances important to information theory, complexity, and modern biology. Aimed at advanced undergraduates and early graduate students, Sethna's text explores everything from chaos through information theory to life at the end of the universe.
Quantum optics: an introduction is a modern textbook written primarily for advanced undergraduate and masters level students in physics. In addition to standard topics, the text includes a broad range of topics in applied quantum optics such as laser cooling, Bose-Einstein condensation and quantum information processing.
This book discusses the computational approach in modern statistical physics, adopting simple language and an attractive format with many illustrations, tables and printed algorithms. The style will appeal to students, teachers and researchers in the physical sciences. The focus is on orientation, with implementation details kept to a minimum.
This work gives accounts of non-quantum optical phenomena and of instruments and technology based on them, at a level suitable for the last two years of an honours degree in physics and for graduates starting out. Topics include thin films and holography, and etendue and Gaussian beams.
Quantum field theory has undergone extraordinary developments and permeates many branches of modern research such as particle physics, cosmology, condensed matter, statistical mechanics and critical phenomena. This book introduces the reader to the modern developments in a manner which assumes no previous knowledge of quantum field theory.
How did our universe begin? An understanding of the development of the early universe brings together the subjects of particle physics, astrophysics, and cosmology. This text involves the student in this rapidly growing field of research.
Quantum information is a new area of science, which brings together physics, information theory, computer science and mathematics. The book, which is based on two successful lecture courses, is intended to introduce readers to the exciting ideas behind ground-breaking developments including quantum cryptography, teleportation and quantum computing.
Probably one of the most fashionable areas in the physical sciences today, 'Soft Condensed Matter' provides an excellent introduction to the topic, and includes colloids, polymers, liquid crystals, and amphiphiles. It is suitable for advanced undergraduate and beginning graduate students of physics, chemistry, materials science and chemical engineering.
This textbook series has been designed for final year undergraduate and first year graduate students, providing an overview of the entire field, showing how specialized topics are part of the wider whole, and including references to current areas of literature and research.
This text is primarily intended to accompany an advanced undergraduate course in atomic physics. However, the elementary atomic physics of the early chapters should be accessible to undergraduates first being introduced to the subject. Its experimental basis is strongly emphasized.
This particle physics textbook for senior undergraduates and early graduates explains the Standard Model of particle physics, both the theory and its experimental basis. The point of view is thoroughly modern. Theory relevant to the experiments is developed in detail but in a simplified way without needing full knowledge of quantum field theory.
This book provides an introduction to phenomena and models in nanoelectronics. It starts from the basics, but also introduces topics of recent interest, such as superconducting qubits, graphene, and quantum nanoelectromechanics.
This book is intended to take students, final year undergraduates and graduates, and researchers along the path to understand quantum processes in semiconductors, and to enable them, as researchers, to contribute to further advances and inventions.
An up-to-date perspective on laser technology for students at advanced undergraduate or introductory graduate level. The principles of operation and applications of modern laser systems are analysed in detail. The text has over 300 diagrams and each chapter is accompanied with questions (solutions available on application).
This innovative text gives an up-to-date treatment of the optical properties of solid state materials. Traditional core subjects are developed, and many new topics are included that have not previously been covered at this level in any other publication. The book is intended for final year undergraduate students and graduate students in physics.
This book provides an introduction to Einstein's general theory of relativity. A "physics-first" approach is adopted so that interesting applications come before the more difficult task of solving the Einstein equation. The book includes extensive coverage of cosmology, and is designed to allow readers to study the subject alone.
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