**Author**: Gabriele Giuliani

**Publisher:** Cambridge University Press

**ISBN:** 9780521821124

**Size**: 31.81 MB

**Format:** PDF, Docs

**Category : **Science

**Languages : **en

**Pages : **777

**View:** 2590

Get Book

Modern electronic devices and novel materials often derive their extraordinary properties from the intriguing, complex behavior of large numbers of electrons forming what is known as an electron liquid. This book provides an in-depth introduction to the physics of the interacting electron liquid in a broad variety of systems, including metals, semiconductors, artificial nano-structures, atoms and molecules. One, two and three dimensional systems are treated separately and in parallel. Different phases of the electron liquid, from the Landau Fermi liquid to the Wigner crystal, from the Luttinger liquid to the quantum Hall liquid are extensively discussed. Both static and time-dependent density functional theory are presented in detail. Although the emphasis is on the development of the basic physical ideas and on a critical discussion of the most useful approximations, the formal derivation of the results is highly detailed and based on the simplest, most direct methods.

**Author**: R. F. Egerton

**Publisher:** Springer Science & Business Media

**ISBN:** 9780306452239

**Size**: 38.97 MB

**Format:** PDF, Kindle

**Category : **Science

**Languages : **en

**Pages : **485

**View:** 334

Get Book

The Second Edition explores several new applications of EELS developed during the last ten years. Chapters include recent progress in parallel-recording detectors and image-filtering systems as well as spectral fine structure. This edition also features updated computer programs which will perform spectrum deconvolution and compute partial ionization cross-sections.

**Author**: Jed Z. Buchwald

**Publisher:** MIT Press

**ISBN:** 9780262524247

**Size**: 16.12 MB

**Format:** PDF, Docs

**Category : **Science

**Languages : **en

**Pages : **514

**View:** 4180

Get Book

A biography of the electron and a history of the microphysical world that it opened up.

**Author**: Uichiro Mizutani

**Publisher:** Cambridge University Press

**ISBN:** 9780521587099

**Size**: 53.58 MB

**Format:** PDF

**Category : **Science

**Languages : **en

**Pages : **590

**View:** 1021

Get Book

Electron theory of metals textbook for advanced undergraduate students of condensed-matter physics and related disciplines.

**Author**: D. Hestenes

**Publisher:** Springer Science & Business Media

**ISBN:** 9401135703

**Size**: 30.29 MB

**Format:** PDF, Kindle

**Category : **Science

**Languages : **en

**Pages : **403

**View:** 6222

Get Book

techniques, and raises new issues of physical interpretation as well as possibilities for deepening the theory. (3) Barut contributes a comprehensive review of his own ambitious program in electron theory and quantum electrodynamics. Barut's work is rich with ingenious ideas, and the interest it provokes among other theorists can be seen in the cri tique by Grandy. Cooperstock takes a much different approach to nonlinear field-electron coupling which leads him to conclusions about the size of the electron. (4) Capri and Bandrauk work within the standard framework of quantum electrodynamics. Bandrauk presents a valuable review of his theoretical approach to the striking new photoelectric phenomena in high intensity laser experiments. (5) Jung proposes a theory to merge the ideas of free-free transitions and of scattering chaos, which is becoming increasingly important in the theoretical analysis of nonlinear optical phenomena. For the last half century the properties of electrons have been probed primarily by scattering experiments at ever higher energies. Recently, however, two powerful new experimental techniques have emerged capable of giving alternative experimental views of the electron. We refer to (1) the confinement of single electrons for long term study, and (2) the interaction of electrons with high intensity laser fields. Articles by outstanding practitioners of both techniques are included in Part II of these Proceedings. The precision experiments on trapped electrons by the Washington group quoted above have already led to a Nobel prize for the most accurate measurements of the electron magnetic moment.

**Author**: E. A. Davis

**Publisher:** CRC Press

**ISBN:** 0203484096

**Size**: 35.41 MB

**Format:** PDF, ePub, Mobi

**Category : **Science

**Languages : **en

**Pages : **256

**View:** 4681

Get Book

This historical survey of the discovery of the electron has been published to coincide with the centenary of the discovery. The text maps the life and achievements of J.J. Thomson, with particular focus on his ideas and experiments leading to the discovery. It describes Thomson's early years and education. It then considers his career at Cambridge, first as a fellow of Trinity, later as the head of the Cavendish Laboratory and finally as Master of Trinity and national spokesman for science. The core of the book is concerned with the work undertaken at the Cavendish, culminating in the discovery of "corpuscles", later named "electrons".; In the final two chapters, the immediate aftermath and implications of the work are described. These include the creation of the subject of atomic physics as well as the broader long term developments which can be traced from vacuum valves and the transistor through to the microelectronics revolution.

**Author**: G. Vignale

**Publisher:** IOS Press

**ISBN:** 1614990131

**Size**: 58.84 MB

**Format:** PDF, Kindle

**Category : **Science

**Languages : **en

**Pages : **560

**View:** 500

Get Book

The electron liquid paradigm is at the basis of most of our current understanding of the physical properties of electronic systems. Quite remarkably, the latter are nowadays at the intersection of the most exciting areas of science: materials science, quantum chemistry, nano-electronics, biology and quantum computation. Accordingly, its importance can hardly be overestimated. During the past 20 years the field has witnessed momentous developments, which are partly covered in this new volume. Advances in semiconductor technology have allowed the realizations of ultra-pure electron liquids whose density, unlike that of the ones spontaneously occurring in nature, can be tuned by electrical means, allowing a systematic exploration of both strongly and weakly correlated regimes. Most of these system are two- or even one-dimensional and can be coupled together in the form of multi-layers or multi-wires, opening vast observational possibilities. On the theoretical side, quantum Monte Carlo methods have allowed an essentially exact determination of the ground-state energy of the electron liquid, and have provided partial answers to the still open question of the structure of its phase diagram. Starting from the 1980s some truly revolutionary concepts have emerged, which are well represented in this volume.

**Author**: Volodimir Simulik

**Publisher:** Apeiron

**ISBN:**
**Size**: 76.82 MB

**Format:** PDF, Kindle

**Category : **Science

**Languages : **en

**Pages : **281

**View:** 2140

Get Book

This book brings together papers by a number of authors. More than ten different models of the electron are presented and more than twenty models are discussed briefly. Thus, the book gives a complete picture of contemporary theoretical thinking (traditional and new) about the physics of the electron.

**Author**: E. C. M. Chen

**Publisher:** John Wiley & Sons

**ISBN:** 9780471659884

**Size**: 69.39 MB

**Format:** PDF, ePub, Docs

**Category : **Science

**Languages : **en

**Pages : **544

**View:** 3840

Get Book

Broad in scope, this book describes the general theory and practice of using the Electron Capture Detector (ECD) to study reactions of thermal electrons with molecules. It reviews electron affinities and thermodynamic and kinetic parameters of atoms, small molecules, and large organic molecules obtained by using various methods. * Summarizes other methods for studying reactions of thermal electrons with molecules * Discusses applications in analytical chemistry, physical chemistry, and biochemistry * Provides a data table of electron affinities

**Author**: J. Keller

**Publisher:** Springer Science & Business Media

**ISBN:** 0306471329

**Size**: 19.16 MB

**Format:** PDF

**Category : **Science

**Languages : **en

**Pages : **263

**View:** 6826

Get Book

In the first century after its discovery, the electron has come to be a fundamental element in the analysis of physical aspects of nature. This book is devoted to the construction of a deductive theory of the electron, starting from first principles and using a simple mathematical tool, geometric analysis. Its purpose is to present a comprehensive theory of the electron to the point where a connection can be made with the main approaches to the study of the electron in physics. The introduction describes the methodology. Chapter 2 presents the concept of space-time-action relativity theory and in chapter 3 the mathematical structures describing action are analyzed. Chapters 4, 5, and 6 deal with the theory of the electron in a series of aspects where the geometrical analysis is more relevant. Finally in chapter 7 the form of geometrical analysis used in the book is presented to elucidate the broad range of topics which are covered and the range of mathematical structures which are implicitly or explicitly included. The book is directed to two different audiences of graduate students and research scientists: primarily to theoretical physicists in the field of electron physics as well as those in the more general field of quantum mechanics, elementary particle physics, and general relativity; secondly, to mathematicians in the field of geometric analysis.

**Author**: M. Pollak

**Publisher:** Cambridge University Press

**ISBN:** 0521195527

**Size**: 39.86 MB

**Format:** PDF, ePub, Mobi

**Category : **Science

**Languages : **en

**Pages : **291

**View:** 3599

Get Book

Presenting an up-to-date report on electronic glasses for researchers in condensed matter physics.