Electron-optics
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Electron-optics

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Published by American Photographic Publishing in Boston .
Written in English

Subjects:

  • Electron optics

Book details:

Edition Notes

Statementtranslated by Arthur Palme.
ContributionsPalme, Arthur,
The Physical Object
Paginationv, 161 p. illus., diag.
Number of Pages161
ID Numbers
Open LibraryOL15212263M

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This chapter introduces the book that describes various branches of free electron beams. Principles of Electron Optics which represents the first and only comprehensive treatment of electron optics in over forty years. Each volume focuseson different aspects of Electron Optics, but together these three volumes cover systematically the whole 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 ://   Practical applications of electron optics have been used to illustrate the principles under discussion. The book will be of interest to any scholar of general physics, geometrical optics or electron physics. The extensive bibliography lists the more important original literature and provides a  › Books › Science & Math › Physics.   Purchase Principles of Electron Optics - 1st Edition. Print Book & E-Book. ISBN ,

A continuation of these topics can be found in volume two, Principles of Electron Optics: Applied Geometrical Optics. 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  › Books › Science & Math › Physics. Principles of Electron Optics, Volume 2. Author: Peter W. Hawkes,Erwin Kasper; Publisher: Academic Press; Release: 13 December ; GET THIS BOOK Principles of Electron Optics, Volume 2. 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 Principles of Electron Optics Volume 2 Book Description: 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 Transmission electron microscopes (TEM) have very delicate optical systems in order to fulfill their research purpose, i.e., the characterization of material’s structures in a versatile manner in modern science. High-energy electrons are generated, forming an electron probe with variable sizes to bombard the sample ://

  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 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 When this book was written in and , electron-optics was in its infancy although it had already made\u00B7 it possible to build a number of remarkable devices. The publishers have added one chapter to the book translation to give some idea of the way this science progressed in the half dozen years following the first :// The field of electron and ion optics is based on the analogy between geometrical light optics and the motion of charged particles in electromagnetic fields. The spectacular development of the electron microscope clearly shows the possibilities of image formation by charged particles of wavelength much shorter than that of visible ://