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Principles of electron optics.vol. 1-3

Record Type:	Electronic resources : Monograph/item
Title/Author:	Principles of electron optics.
Author:	Hawkes, Peter W.
other author:	Kasper, E.
Published:	[S.l.] :Academic Press,1994.
Description:	1 online resource (3 v.)
Subject:	Electron optics.
Online resource:	http://www.sciencedirect.com/science/book/9780123333407
ISBN:	9780123333407

Principles of electron optics.vol. 1-3
Hawkes, Peter W.

Principles of electron optics.vol. 1-3[electronic resource]. - [S.l.] :Academic Press,1994. - 1 online resource (3 v.)

Introduction. Part I--Classical Mechanics: Relativistic Kinematics. Different Forms of Trajectory Equations. Variational Principles. Hamiltonian Optics. Part II--Calculation of Static Fields: Basic Concepts and Equations. Series Expansions. Boundary-Value Problems. Integral Equations. The Boundary-Element Method. The Finite-Difference Method (FDM). The Finite-Element Method (FEM). Field-Interpolation Techniques. Part III--The Paraxial Approximation: Introduction. Systems with an Axis of Rotational Symmetry. Gaussian Optics of Rotationally Symmetric Systems: Asymptotic Image Formation. Gaussian Optics of Rotationally Symmetric Systems: Real Cardinal Elements. Electron Mirrors. Quadrupole Lenses. Cylindrical Lenses. Part IV--Aberrations: Introduction. Perturbation Theory: General Formalism. The Relation Between Permitted Types of Aberration and System Symmetry. The Geometrical Aberrations of Round Lenses. Asymptotic Aberration Coefficients. Chromatic Aberrations. Aberration Matrices and the Aberrations of Lens Combinations. The Aberrations of Mirrors and Cathode Lenses. The Aberrations of Quadrupole Lenses and Octopoles. The Aberrations of Cylindrical Lenses. Parasitic Aberrations. Part V--Deflection Systems: Deflection Systems and their Aberrations. Part VI--Computer-Aided Electron Optics: Numerical Calculation of Trajectories, Paraxial Properties and Aberrations. The Use of Computer Algebra Languages. Notes and References. Index. -- Part VII--Instrumental Optics: Electrostatic Lenses. Magnetic Lenses. Electron Mirrors. Cathode Lenses and Field-Emission Microscopy. Quadrupole Lenses. Deflection Systems. Part VII--Aberration Correction and Beam Intensity Distribution (Caustics): Aberration Correction. Caustics and their Applications. Part IX--Electron Guns: General Features of Electron Guns. Theory of Electron Emission. Pointed Cathodes without Space Charge. Space Charge Effects. Brightness. Emittance. The Boersch Effect. Complete Electron Guns. Part X--Systems with a Curved Optic Axis: General Curvilinear Systems. Magnetic Sector Fields. Unified Theories of Ion Optical Systems. Notes and References. Index. Part XI--Wave Mechanics: The Schrodinger Equation. The Relativistic Wave Equation. The Eikonal Approximation. Paraxial Wave Optics. The General Theory of Electron Diffraction and Interference. Elementary Diffraction Patterns. Part XII--Electron Interference and Electron Holography: General Introduction. Principles of Interferometry. Principles of Holography. Part XIII--Theory of Image Formation: General Introduction. Fundamentals of Transfer Theory. The Theory of Bright-field Imaging. Image Formation in the Scanning Transmission Electron Microscope. Part XIV--Electron Interactions in Thin Specimens: Electron Interactions in Amorphous Specimens. Electron Interactions in Crystalline Specimens. Part XV--Digital Image Processing: Introduction. Acquisition, Sampling and Coding. Enhancement. Linear Restoration. Nonlinear Restoration. Three-Dimensional Reconstruction. Image Analysis. Instrument Control and Instrumental Image Manipulation. Part XVI--Coherence, Brightness and Spectral Functions: Coherence and the Brightness Functions. Instrumental Aspects of Coherence. Appendix. Notes and References. Index.

This set is a reprint of the acclaimed three-volume series, Principles of Electron Optics which represents the first and only comprehensive treatment of electron optics in over forty years. Each volume focuses on different aspects of Electron Optics, but together these three volumes cover systematically the whole of the subject, making this complete set an indispensable resource for anyone involved in the field of Optics. Volumes One and Two are devoted to geometrical optics, covering classical mechanics; calculation of static fields; the paraxial approximation; aberrations; deflection systems; computer-aided electro-optics; instrumental optic aberration correctionand beam intensity distribution; electron guns; and systems with a curved optic axis. Volume Three covers wave optics and effects due to wave length, and deals with wave mechanics; electron interference and electron holography; theory of image formation; electron interactions in thin specimens; digital image processing; and coherence, brightness and spectral functions. Together these three volumes comprise a resource which has been called" ... the definitive text and source book in the field ... "(K.C.A. Smith, ROYAL MICROSCOPY SOCIETY REVIEW) Key Features * The most comprehensive coverage of the field in over forty years * Contains extensive references and notes containing the contents of many of the major papers cited in the text * Covers every significant advance in Electron Optics since the subject originated * Exceptionally complete and carefully selected references.

ISBN: 9780123333407

Source: 81641:81641Elsevier Science & Technologyhttp://www.sciencedirect.comSubjects--Topical Terms:

276873
Electron optics.
Index Terms--Genre/Form:

214472
Electronic books.

LC Class. No.: QC793.5.E62 / H39eb v. 1-3

Dewey Class. No.: 537.5/6

Principles of electron optics.vol. 1-3
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505 0 $a Introduction. Part I--Classical Mechanics: Relativistic Kinematics. Different Forms of Trajectory Equations. Variational Principles. Hamiltonian Optics. Part II--Calculation of Static Fields: Basic Concepts and Equations. Series Expansions. Boundary-Value Problems. Integral Equations. The Boundary-Element Method. The Finite-Difference Method (FDM). The Finite-Element Method (FEM). Field-Interpolation Techniques. Part III--The Paraxial Approximation: Introduction. Systems with an Axis of Rotational Symmetry. Gaussian Optics of Rotationally Symmetric Systems: Asymptotic Image Formation. Gaussian Optics of Rotationally Symmetric Systems: Real Cardinal Elements. Electron Mirrors. Quadrupole Lenses. Cylindrical Lenses. Part IV--Aberrations: Introduction. Perturbation Theory: General Formalism. The Relation Between Permitted Types of Aberration and System Symmetry. The Geometrical Aberrations of Round Lenses. Asymptotic Aberration Coefficients. Chromatic Aberrations. Aberration Matrices and the Aberrations of Lens Combinations. The Aberrations of Mirrors and Cathode Lenses. The Aberrations of Quadrupole Lenses and Octopoles. The Aberrations of Cylindrical Lenses. Parasitic Aberrations. Part V--Deflection Systems: Deflection Systems and their Aberrations. Part VI--Computer-Aided Electron Optics: Numerical Calculation of Trajectories, Paraxial Properties and Aberrations. The Use of Computer Algebra Languages. Notes and References. Index. -- Part VII--Instrumental Optics: Electrostatic Lenses. Magnetic Lenses. Electron Mirrors. Cathode Lenses and Field-Emission Microscopy. Quadrupole Lenses. Deflection Systems. Part VII--Aberration Correction and Beam Intensity Distribution (Caustics): Aberration Correction. Caustics and their Applications. Part IX--Electron Guns: General Features of Electron Guns. Theory of Electron Emission. Pointed Cathodes without Space Charge. Space Charge Effects. Brightness. Emittance. The Boersch Effect. Complete Electron Guns. Part X--Systems with a Curved Optic Axis: General Curvilinear Systems. Magnetic Sector Fields. Unified Theories of Ion Optical Systems. Notes and References. Index. Part XI--Wave Mechanics: The Schrodinger Equation. The Relativistic Wave Equation. The Eikonal Approximation. Paraxial Wave Optics. The General Theory of Electron Diffraction and Interference. Elementary Diffraction Patterns. Part XII--Electron Interference and Electron Holography: General Introduction. Principles of Interferometry. Principles of Holography. Part XIII--Theory of Image Formation: General Introduction. Fundamentals of Transfer Theory. The Theory of Bright-field Imaging. Image Formation in the Scanning Transmission Electron Microscope. Part XIV--Electron Interactions in Thin Specimens: Electron Interactions in Amorphous Specimens. Electron Interactions in Crystalline Specimens. Part XV--Digital Image Processing: Introduction. Acquisition, Sampling and Coding. Enhancement. Linear Restoration. Nonlinear Restoration. Three-Dimensional Reconstruction. Image Analysis. Instrument Control and Instrumental Image Manipulation. Part XVI--Coherence, Brightness and Spectral Functions: Coherence and the Brightness Functions. Instrumental Aspects of Coherence. Appendix. Notes and References. Index.
520 $a This set is a reprint of the acclaimed three-volume series, Principles of Electron Optics which represents the first and only comprehensive treatment of electron optics in over forty years. Each volume focuses on different aspects of Electron Optics, but together these three volumes cover systematically the whole of the subject, making this complete set an indispensable resource for anyone involved in the field of Optics. Volumes One and Two are devoted to geometrical optics, covering classical mechanics; calculation of static fields; the paraxial approximation; aberrations; deflection systems; computer-aided electro-optics; instrumental optic aberration correctionand beam intensity distribution; electron guns; and systems with a curved optic axis. Volume Three covers wave optics and effects due to wave length, and deals with wave mechanics; electron interference and electron holography; theory of image formation; electron interactions in thin specimens; digital image processing; and coherence, brightness and spectral functions. Together these three volumes comprise a resource which has been called" ... the definitive text and source book in the field ... "(K.C.A. Smith, ROYAL MICROSCOPY SOCIETY REVIEW) Key Features * The most comprehensive coverage of the field in over forty years * Contains extensive references and notes containing the contents of many of the major papers cited in the text * Covers every significant advance in Electron Optics since the subject originated * Exceptionally complete and carefully selected references.
588 $a Description based on print version record.
650 0 $a Electron optics. $3 276873
655 4 $a Electronic books. $2 local. $3 214472
700 1 $a Kasper, E. $q (Erwin), $d 1933- $3 586459
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