1 edition of Electron and Ion Optics found in the catalog.
Published
1988
by Springer US in Boston, MA
.
Written in
Edition Notes
| Statement | by Miklos Szilagyi |
| Series | Microdevices, Physics and Fabrication Technologies, Microdevices, Physics and Fabrication Technologies |
| The Physical Object | |
|---|---|
| Format | [electronic resource] / |
| Pagination | 1 online resource (556 pages). |
| Number of Pages | 556 |
| ID Numbers | |
| Open Library | OL27035084M |
| ISBN 10 | 1461309239 |
| ISBN 10 | 9781461309239 |
| OCLC/WorldCa | 840281196 |
• Electron and Ion optics • Electron Scattering • Scanning Electron Microscopy • Transmission Electron Microscopy • Ion beam techniques. Image formation • Light rays coming out of an illuminated object diverge from each point on the object • A . The site is secure. The https:// ensures that you are connecting to the official website and that any information you provide is encrypted and transmitted : P Dahl.
Kaufman & Robinson incorporates updated design features into the traditional Kaufman (KDC) ion source technology. KRI’s new KDC product line brings advancements such as self-aligned ion optics and modern switch mode power supplies. These benefits have led to more productive, reliable, and less costly Kaufman gridded ion source products. 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. (source: Nielsen Book Data).
With the growing proliferation of nanotechnologies, powerful imaging technologies are being developed to operate at the sub-nanometer scale. The newest edition of a bestseller, the Handbook of Charged Particle Optics, Second Edition provides essential background information for the design and operation of high resolution focused probe instruments. 1. initialize ion beams with certain m/z, KE and dispersion angle, etc. 2. Use Einzel lens set 1 to focus the ion beam 3. Use reflection quadruple electrodes to bend the ion beam by 9O ° 4. Use Einsel Lens set to focus the bent ion beam to get maximum output. Ion/Surface Collision Region a. b. ‐58V ‐58V ‐58V ‐58V ‐V ‐V 18V.
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. 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 light.
As new Cited by: BOOK REVIEW This section of NIM B will bring reviews of books relevant for the regular readership of the journal. Books for review should be sent to one of the Editors. ELECTRON AND ION OPTICS by Miklos Szilagyi (Plenum Press, New York, ) pp.
xvi +US $ 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 : Springer US.
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 5/5(1).
Electron Optics, Second English Edition, Part I: Optics is a chapter book that begins by elucidating the fundamental features and basic techniques of electron optics, as well as the distribution of potential and field in electrostatic Edition: 2.
Publisher Summary. This chapter illustrates geometrical optics, a knowledge of which is needed to analyze an extremely wide range of instruments: cathode-ray tubes; the family of electron microscopes, which now includes the fixed-beam and scanning transmission instruments, the scanning electron microscope and the emission microscope; electron spectrometers and mass.
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 light.
An introduction to the theoretical background for electron and ion optical designs is given. The matrix formulation of geometrical optics is used to outline the basic relations.
Additional Physical Format: Online version: Szilágyi, Miklós, Electron and ion optics. New York: Plenum Press, © (OCoLC) Document Type. Ion optics with rotational symmetric electrostatic lenses is presented in the book of Hinterber ger [7].
Ion optics with transv erse electric elds has been co vered in the books of Banford [8], Dahl [9] and W ollnik [10]. Here, the rst-order matrix formalism of ion optics with electrostatic lenses is presented follo wing the book of Hinterber File Size: KB.
Electron Beams, Lenses, and Optics - Ebook written by A El-Kareh. Read this book using Google Play Books app on your PC, android, iOS devices.
Download for offline reading, highlight, bookmark or take notes while you read Electron Beams, Lenses, and Optics. 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 : Jing Tao, Rongming Wang, Hongzhou Zhang. 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 Edition: 1. Electron and ion optics --Geometrical optics --Scaling rules and dispersion coefficients --Fields --Lenses --Analyzers --Space charge and beam production.
Responsibility: Poul Dahl. Electron and Ion Optics the branch of science that studies the behavior of electron and ion beams in a vacuum under the influence of electric and magnetic fields.
Inasmuch as the study of electron beams began before the study of ion beams and the former are used much more extensively than the latter, the narrower term “electron optics” is widely.
Electron optics is a mathematical framework for the calculation of electron trajectories along electromagnetic term optics is used because magnetic and electrostatic lenses act upon a charged particle beam similarly to optical lenses upon a light beam. Electron optics calculations are crucial for the design of electron microscopes and particle accelerators.
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. The aberration theory for various electron and ion optical systems and computer-aided design methods are addressed.
The variational method, which makes it possible to treat all the branches of electron and ion optics in a unified way, is employed throughout the by: ELECTRON OPTICS, by Otto Klemperer.
New York, The Macmillan Company, pages, illustrations, Price $ 14 X 22 ems. This little book, one of the Cambridge Physical Tracts, is intended to give a concise account of the most important principles, methods, and applications of geometrical electron optics.
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.Realizing the electron–ion collider (EIC) at Brookhaven will involve adding an accelerator to produce a beam of polarized electrons and an electron storage ring (teal green) to the lab’s existing Relativistic Heavy Ion Collider (RHIC).
Electrons would collide at one or two sites (red blocks) with ions from the yellow ring. The Alternating Gradient Synchrotron (AGS; green ring Author: Toni Feder.Book Review: Electron and ion optics.
by Miklos Szilagyi (Plenum Press, New York, ) pp. xvi +US $ ISBN Authors: Miller, Paul A. Affiliation: AA(Sandia National Laboratories, USA) Publication: Nuclear Instruments and Methods in Physics Research Section B, Vol Issue 4, p.
Publication Date: 10/
