Principles of Electron Optics, Volume 2
Principles of Electron Optics, Volume 2

Author: Peter W. Hawkes

Publisher: Academic Press

Published: 2017-12-13

Total Pages: 767

ISBN-13: 0128134054

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Principles of Electron Optics: Applied Geometrical Optics, Second Edition gives detailed information about the many optical elements that use the theory presented in Volume 1: electrostatic and magnetic lenses, quadrupoles, cathode-lens-based instruments including the new ultrafast microscopes, low-energy-electron microscopes and photoemission electron microscopes and the mirrors found in their systems, Wien filters and deflectors. The chapter on aberration correction is largely new. The long section on electron guns describes recent theories and covers multi-column systems and carbon nanotube emitters. Monochromators are included in the section on curved-axis systems. The lists of references include many articles that will enable the reader to go deeper into the subjects discussed in the text. The book is intended for postgraduate students and teachers in physics and electron optics, as well as researchers and scientists in academia and industry working in the field of electron optics, electron and ion microscopy and nanolithography. Offers a fully revised and expanded new edition based on the latest research developments in electron optics Written by the top experts in the field Covers every significant advance in electron optics since the subject originated Contains exceptionally complete and carefully selected references and notes Serves both as a reference and text

Principles of Electron Optics
Principles of Electron Optics

Author: Peter W. Hawkes

Publisher: Academic Press

Published: 2012-12-02

Total Pages: 755

ISBN-13: 0080984169

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The three volumes in the PRINCIPLES OF ELECTRON OPTICS Series constitute the first comprehensive treatment of electron optics in over forty years. While Volumes 1 and 2 are devoted to geometrical optics, Volume 3 is concerned with wave optics and effects due to wave length. Subjects covered include: Derivation of the laws of electron propagation from SchrUdinger's equation Image formation and the notion of resolution The interaction between specimens and electrons Image processing Electron holography and interference Coherence, brightness, and the spectral function Together, these works comprise a unique and informative treatment of the subject. Volume 3, like its predecessors, will provide readers with both a textbook and an invaluable reference source.

Principles of Electron Optics
Principles of Electron Optics

Author: Peter W. Hawkes

Publisher: Academic Press

Published: 2012-12-02

Total Pages: 599

ISBN-13: 0080962432

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This is a complete handbook and reference volume which covers everything that one needs to know about electron optics. It is a comprehensive coverage of theoretical background and modern computing methods. It contains a detailed and unique account of numerical methods and an extensive bibliography.

Principles of Optics
Principles of Optics

Author: Max Born

Publisher: Elsevier

Published: 2013-06-01

Total Pages: 871

ISBN-13: 148310320X

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Principles of Optics: Electromagnetic Theory of Propagation, Interference and Diffraction of Light, Sixth Edition covers optical phenomenon that can be treated with Maxwell’s phenomenological theory. The book is comprised of 14 chapters that discuss various topics about optics, such as geometrical theories, image forming instruments, and optics of metals and crystals. The text covers the elements of the theories of interference, interferometers, and diffraction. The book tackles several behaviors of light, including its diffraction when exposed to ultrasonic waves. The selection will be most useful to researchers whose work involves understanding the behavior of light.

Introduction to Electron and Ion Optics
Introduction to Electron and Ion Optics

Author: Poul Dahl

Publisher: Elsevier

Published: 2012-12-02

Total Pages: 156

ISBN-13: 0323160905

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Introduction to Electron and Ion Optics provides the theoretical background needed to understand the subject matter and even be helpful in laboratory works. Seven major parts comprise the book where each focuses on a certain aspect or field. The book begins with an introduction to the general principles about electron and ion optics, specifically as basis for the design of the optical components used in particle analyzers and accelerators. The following parts tackle different aspects such as geometrical optics; scaling rules and dispersion coefficients; fields (paraxial, sector, fringing, quadrupole); lenses (electrostatic, immersion, unipotential, etc.); analyzers (electrostatic, spherical, etc.); and space charge and beam production. Towards the last part of the book, there is an exercises section where various problems are given for the reader to answer. This book caters to students specifically in the field of physics.

Physical Principles of Electron Microscopy
Physical Principles of Electron Microscopy

Author: Ray Egerton

Publisher: Springer Science & Business Media

Published: 2011-02-11

Total Pages: 224

ISBN-13: 9780387258003

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Scanning and stationary-beam electron microscopes are indispensable tools for both research and routine evaluation in materials science, the semiconductor industry, nanotechnology and the biological, forensic, and medical sciences. This book introduces current theory and practice of electron microscopy, primarily for undergraduates who need to understand how the principles of physics apply in an area of technology that has contributed greatly to our understanding of life processes and "inner space." Physical Principles of Electron Microscopy will appeal to technologists who use electron microscopes and to graduate students, university teachers and researchers who need a concise reference on the basic principles of microscopy.

Principles of Electron Optics, Volume 3
Principles of Electron Optics, Volume 3

Author: Peter W. Hawkes

Publisher: Academic Press

Published: 2022-02-21

Total Pages: 562

ISBN-13: 0128189800

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Principles of Electron Optic: Volume Three: Wave Optics, discusses this essential topic in microscopy to help readers understand the propagation of electrons from the source to the specimen, and through the latter (and from it) to the image plane of the instrument. In addition, it also explains interference phenomena, notably holography, and informal coherence theory. This third volume accompanies volumes one and two that cover new content on holography and interference, improved and new modes of image formation, aberration corrected imaging, simulation, and measurement, 3D-reconstruction, and more. The study of such beams forms the subject of electron optics, which divides naturally into geometrical optics where effects due to wavelength are neglected, with wave optics considered. Includes authoritative coverage of the fundamental theory behind electron beams Describes the interaction of electrons with solids and the information that can be obtained from electron-beam techniques Addresses recent, relevant research topics, including new content on holography and interference, new modes of image formation, 3D reconstruction and aberration corrected imaging, simulation and measurement

Principles of Optics
Principles of Optics

Author: Max Born

Publisher: Cambridge University Press

Published: 2019-12-19

Total Pages: 993

ISBN-13: 1108477437

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The 60th anniversary edition of this classic and unrivalled optics reference work includes a special foreword by Sir Peter Knight.

Geometrical Charged-Particle Optics
Geometrical Charged-Particle Optics

Author: Harald H. Rose

Publisher: Springer Science & Business Media

Published: 2009

Total Pages: 422

ISBN-13: 3540859152

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This resource covering all theoretical aspects of modern geometrical charged-particle optics is aimed at anyone involved in the design of electron optical instruments and beam-guiding systems for charged particles.

Introduction to Modern Optics
Introduction to Modern Optics

Author: Grant R. Fowles

Publisher: Courier Corporation

Published: 2012-04-25

Total Pages: 356

ISBN-13: 048613492X

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A complete basic undergraduate course in modern optics for students in physics, technology, and engineering. The first half deals with classical physical optics; the second, quantum nature of light. Solutions.