Автор: Nakahara, M. (department Of Mathematics And Physic Название: Geometry, topology and physics ISBN: 0750306068 ISBN-13(EAN): 9780750306065 Издательство: Taylor&Francis Рейтинг: Цена: 13779.00 р. Наличие на складе: Есть у поставщика Поставка под заказ.
Описание: Offers an introduction to the ideas and techniques of differential geometry and topology. This work starts with a brief survey of quantum field theory, gauge theory, general relativity, vector spaces, and topology. It also demonstrates elaborate concepts of topology and geometry, including fiber bundles, characteristic classes, and index theorems.
Описание: Unified Field Mechanics, the topic of the 9th international symposium honoring noted French mathematical physicist Jean-Pierre Vigier cannot be considered highly speculative as a myopic critic might surmise.
Автор: Vladislav A. Blatov, Tilmann Leisegang Название: Single Crystals: Complexity, Structures, Properties ISBN: 3110528797 ISBN-13(EAN): 9783110528794 Издательство: Walter de Gruyter Цена: 26024.00 р. Наличие на складе: Нет в наличии.
Описание: The book gives a comprehensive overview on the crystalline state, starting form its importance, diverse, and complexity, including peculiarities of the crystal structure, over the manifold properties up to the use of crystalline materials in industry and in particular for material and energy conversion applications, including aspects of availability of resources and economic considerations as well as theoretical and experimental methods for their understanding.
The main focus of this year's Proceedings of the 53rd Course of the International School of Subnuclear Physics is the future of physics, including the new frontiers in other fields.
Sample Chapter(s) The Future of Our Physics (15,569 KB)
Contents: The Future of Our Physics (A Zichichi); Majorana Fermions in Particle Physics, Solid State and Quantum Information (M J Duff); Majorana Fermions, Supersymmetry Breaking, and Born-Infeld Theory (S Ferrara); Gravity as the Square of Yang-Mills? (M J Duff); Strong Coupling and Classicalization (G Dvali); Texture Zero Mass Matrices and Flavour Mixing of Quarks and Leptons (H Fritzsch); Roadmap at the LHC to the Higgs Boson and Beyond (P Jenni); IceCube: The Discovery of High-Energy Cosmic Neutrinos (F Halzen); New Physics is Needed to Understand Black Holes (G 't Hooft); Low-ℓ CMB from String-Scale SUSY Breaking? (A Sagnotti); The LAA Impact on Technology R&D: From Past to Future (H Wenninger); Neutrinos: Measuring the Unexpected (A Bettini); Highlights from INFN (F Ferroni); Highlights from ALICE (P Giubellino); The High Luminosity LHC Project (L Rossi); Highlights from BNL and RHIC 2015 (M J Tannenbaum); LHCb -- Selected Highlights and Future Prospects (G Wilkinson); Cosmology and Fundamental Physics (P Ferreira); Planck Satellite: Latest Data and Proof of Inflation (A Riazuelo); Neutrino Physics in China (L Wen); New Talents Celebration (A Zichichi); Diplomas and Awards; Participants;
Описание: Kenneth Geddes Wilson (1936-2013) - intellectual giant, Nobel Laureate, intrepid scholar, visionary thinker, pioneering physicist and a person of conscience - made seminal contributions to the foundations of contemporary physics and undertook tireless efforts to bring reforms in the educational system.
The book is intended as a detailed guide to use and evaluate the modern digital technology to build modern PET systems. Digital Positron Emission Tomography represents the most modern trend among non-invasive functional nuclear imaging techniques. The term digital is interpreted both in terms of hardware configuration and in terms of data stream analysis. Modern miniaturized sensors realized in Complementary Metal Oxide Semiconductor technology allow to reduce the physical size of detecting pixels to the sub-millimetric range. The new Multi Voltage Threshold method allows to digitize the signals from each pixel within few hundred picoseconds and to collect digital data for further analysis. The modern concept of digital PET requires new techniques of digital data analysis and physical interpretation based on high performance computing platforms, and requires also to define new methods and strategies for the verification of the medical product quality standards.
The book will describe the physical fundaments of a novel sensor, the MVT SiPM, able to detect single photons with a space resolution of 50 um and a time resolution of few tens of picosecods. We will describe the physical processes and we will show how to correctly simulate and understand its features. We will show how to design a Positron Emission Tomography system based on this sensor, including high performance computing and artificial intelligence approach as techniques for the new generation digital PET systems. The book will make clear the physical and mathematical fundaments of the digital innovation introduced by this new sensor.
The series Texts and Monographs in Theoretical Physics collects advanced texts on selected topics from the broad and varied field of Theoretical Physics. The works in the series will enable the readers to get a deep understanding of current topics in Theoretical Physics, with a special emphasis on recent developments. They are aimed at advanced students and researchers in theoretical and mathematical physics, and can also serve as secondary reading for lectures and seminars at post-graduate levels.
The volume of these proceedings is devoted to a wide variety of items, both in theory and experiment, of particle physics such as electroweak theory, fundamental symmetries, tests of standard model and beyond, neutrino and astroparticle physics, hadron physics, gravitation and cosmology, physics at the present and future accelerators.
This book provides an interdisciplinary perspective on one of the most fascinating and important open questions in science: What is quantum mechanics talking about? Quantum theory is perhaps our best confirmed physical theory. However, despite its great empirical effectiveness and the subsequent technological developments that it gave rise to in the 20th century, from the interpretation of the periodic table of elements to CD players, holograms and quantum state teleportation, it stands even today without a universally accepted interpretation. The novelty of the book comes from the multiple viewpoints and subjects investigated by a group of researchers from Europe and North and South America.
Описание: Volume 2 of this three-part series presents the quantization of classical field theory using the path integral formalism.
For this volume the target audience is students who wish to learn about relativistic quantum field theory applied to particle physics, however, it is still very accessible and useful for students of condensed matter. This volume begins with the introduction of the path integral formalism for non-relativistic quantum mechanics and then, using this as a basis, extends the formalism to quantum fields with an infinite number of degrees of freedom. Dr. Strickland then discusses how to quantize gauge fields using the Fadeev-Popov method and fermionic fields using Grassman algebra. He then presents the path integral formulation of quantum chromodynamics and its renormalization. Finally, he discusses the role played by topological solutions in non-abelian gauge theories.
Quantum Physics? Quantum Physics for my everyday life? You betcha With Quantum Physics in Everyday Life, you'll the how and why to the ever-popular Law of Attraction, and how it works on the scientific and subatomic level.
While it can be difficult to wrap your mind around, Quantum Physics is never boring.
Learn the bewildering truth of how our thoughts and actions affect scientific experiments on the subatomic particle level- how do these things connect? What impact do we have on Quantum Physics in daily life? And more importantly, what effect does it have on us?
From Max Planck's discoveries in the early 1900s, to Albert Einstein's experiments, Quantum Physics has remained as confusing and mystifying as ever. Can we really hope to understand just exactly how Quantum Physics works in the universe around us? What does it all mean? And why do we need to know about it?
Not written just for "science geeks" and "nerds," Quantum Physics in Everyday Life is a delightful, tantalizing read that will open your mind to things you never thought possible.
From dark bodies to time travel, you'll never know what's achievable when you fully understand the wonderful mystery that is Quantum Physics.
Classical Mechanics teaches readers how to solve physics problems; in other words, how to put math and physics together to obtain a numerical or algebraic result and then interpret these results physically.
These skills are important and will be needed in more advanced science and engineering courses. However, more important than developing problem-solving skills and physical-interpretation skills, the main purpose of this multi-volume series is to survey the basic concepts of classical mechanics and to provide the reader with a solid understanding of the foundational content knowledge of classical mechanics. Classical Mechanics: Newton's Laws and Uniform Circular Motion focuses on the question: 'Why does an object move?'. To answer that question, we turn to Isaac Newton. The hallmark of any good introductory physics series is its treatment of Newton's laws of motion. These laws are difficult concepts for most readers for a number of reasons: they have a reputation as being difficult concepts; they require the mastery of multiple sub-skills; and problems involving these laws can be cast in a variety of formats.
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