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The second volume of this book series presents a foundation for describing electron-field interactions, the basic elements involved in open quantum theory, the dissipative couplings of the active elements, the quantum injection dot electrons and coherent electromagnetic fields produced by crystal lattice vibrations. A microscopic description of the systems of interest is used to explain a number of structural models that describe electron arrangement and mechanics in such systems. The explanation of these models depends on a number of numerical parameters and calculations which have been explicitly discussed in detail. Readers will gain a better understanding of open quantum systems and energy conversion in semiconductor devices. Theoretical calculations presented in this book can also be compared with experimental data from prior experiments. The volume is also supplemented by an adequate bibliography which provides useful references. This book is a handy text on advanced quantum theory for advanced physics and electronics students and researchers.
This volume presents a clear understanding of the quantum mechanics of particles with reference to the current understanding of theory of relativity, gravitation, and electromagnetism, including essential phenomena as spin, the graviton spin, black holes, and the quantum particle states in the extreme conditions of a black hole formation, and of the Schwarzschild boundary. The reader is introduced to the recent theory of the quantum particle dynamics as a distribution of matter propagating with the velocity of the waves. The text describes this distribution by a Fourier space-time series expansion, which we call the wave function. The subsequent chapters delve into the mechanics of quantum particles in a gravitational field, charged particles in a gravitational field and finally, the least action and matter-field dynamics in a gravitational field. The book also explains important rules in quantum mechanics such as the mass quantization rule, Dirac’s formulation of the general theory of relativity, electromagnetic field theory, quantum particle interactions and more. The volume serves as a concise introduction to the complex topic of quantum particle mechanics for scholars involved in advanced physics courses.
"A Quantum system can be viewed as a larger closed system comprising of two components: an open quantum system and its surrounding environment. These two components interact with each other, and in the realm of theoretical physics, this interaction cannot "
Practical Conversion of Zero-Point Energy is the authoritative guide to the latest discoveries, tools and high-school level physics behind the most ubiquitous source of energy for the future. One year in the making, it is profusely illustrated and exhaustively researched with almost 300 references by an engineering physicist and noted expert in the field of emerging energy technology. Revised edition now contains a complete summary guide to the quantum "tricks of the trade." Quite possibly the most advanced electrical energy source book available today.
Thoroughly revised and up-dated edition of a highly successful textbook.
A comprehensive and unified introduction to the science of energy sources, uses, and systems for students, scientists, engineers, and professionals.
"This introductory, algebra-based, two-semester college physics book is grounded with real-world examples, illustrations, and explanations to help students grasp key, fundamental physics concepts. ... This online, fully editable and customizable title includes learning objectives, concept questions, links to labs and simulations, and ample practice opportunities to solve traditional physics application problems."--Website of book.
University Physics provides an authoritative treatment of physics. This book discusses the linear motion with constant acceleration; addition and subtraction of vectors; uniform circular motion and simple harmonic motion; and electrostatic energy of a charged capacitor. The behavior of materials in a non-uniform magnetic field; application of Kirchhoff's junction rule; Lorentz transformations; and Bernoulli's equation are also deliberated. This text likewise covers the speed of electromagnetic waves; origins of quantum physics; neutron activation analysis; and interference of light. This publication is beneficial to physics, engineering, and mathematics students intending to acquire a general knowledge of physical laws and conservation principles.
There are many excellent books on quantum theory from which one can learn to compute energy levels, transition rates, cross sections, etc. The theoretical rules given in these books are routinely used by physicists to compute observable quantities. Their predictions can then be compared with experimental data. There is no fundamental disagreement among physicists on how to use the theory for these practical purposes. However, there are profound differences in their opinions on the ontological meaning of quantum theory. The purpose of this book is to clarify the conceptual meaning of quantum theory, and to explain some of the mathematical methods which it utilizes. This text is not concerned with specialized topics such as atomic structure, or strong or weak interactions, but with the very foundations of the theory. This is not, however, a book on the philosophy of science. The approach is pragmatic and strictly instrumentalist. This attitude will undoubtedly antagonize some readers, but it has its own logic: quantum phenomena do not occur in a Hilbert space, they occur in a laboratory.