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Title Advances in imaging and electron physics. Volume 194, Particles and waves in electron optics and microscopy / Giulio Pozzi.
Imprint Amsterdam : Elsevier, 2016.


 Internet  Electronic Book    AVAILABLE
Description 1 online resource : color illustrations.
Series Advances in Imaging and Electron Physics ; v. 194
Advances in imaging and electron physics.
Bibliog. Includes bibliographical references and index.
Note Available only to authorized UTEP users.
Online resource; title from PDF title page (EBSCO, viewed July 6, 2016).
Subject Optics.
Contents Front Cover; Particles and Waves in Electron Optics and Microscopy; Copyright; Dedication; Contents; Foreword; Preface; Future Contributions; Acknowledgments; Plan of the Book; Chapter One: Complements of Geometrical Light Optics; Chapter Two: Complements of Wave Optics; Chapter Three: Particle Theory of Image Formation; Chapter Four: Electromagnetic Lenses; Chapter Five: Electron, Particles, or Waves?; Chapter Six: The Wavefunction of the Paraxial Electrons; Chapter Seven: Fourier Optics; Chapter Eight: Other Interference Experiments; Chapter Nine: Interpretation of the Experimental Results.
Chapter Ten: Off-Axis Electron Holography: A Short IntroductionChapter Eleven: Waveoptical Analysis of the Spherical Aberration; Chapter Twelve: Epilogue; Appendix. Calculation of the Definite Integrals Appearing in the R-S Formula; Bibliography; Contents of Volumes 151-193; Index; Color Plate; Back Cover; Credits; 1. Geometry of the Rays; 2. Geometry of the Surfaces; 3. Comments and Notes; 1. Mathematical Preliminaries; 2. Elements of Diffraction Theory: Propagation; 3. Elements of Diffraction Theory: Interaction.
4. Kirchhoff Diffraction from a Half-plane and Comparison with the Sommerfeld Solution5. Comments and Notes; 1. Elementary Considerations; 2. Expressions for the Electric and Magnetic Fields; 3. Electron Focusing in Cylindrical Coordinates; 4. Image Formation: The General Case; 5. Motion in Perpendicular and Crossed Fields; 1. Electrostatic Lenses; 2. Magnetic Lenses; 3. Quadrupole Lenses; 4. Comments and Notes; 1. The Electron Biprism; 2. Experimental Results with the Electron Biprism; 3. Buildup of the Biprism Fresnel Interference Fringes by Single Electrons; 4. Experiments with Nanoslits.
6. From Wave to Particle Mechanics7. Comments and Notes; 1. Multiple Beam Experiments; 2. Interference of Probability Amplitudes; 3. The Magnetic Aharonov-Bohm Effect; 4. The Electrostatic Aharonov-Bohm Effect; 5. Comments and Notes; 1. The Wavefunction in the Observation Plane; 2. Spherical Wave Theorems; 3. Slits; 4. Electron Biprism; 5. Interference of the Probability Amplitudes; 6. Interpretation of the Aharonov-Bohm Effects; 7. Linear Charge Distributions; 8. Comments and Notes; 1. Gaborś Idea; 2. Electron Holography: Early State of the Art.
5. Buildup of the Two-Slit Fraunhofer Interference Fringes by Single Electrons6. Comments and Notes; 1. The Schrödinger Equation; 2. The Eikonal Approximation; 3. Electron-Specimen Interaction: The Phase Object Approximation; 4. The Multislice Approximation; 5. Comparison Between the Two Approaches; 6. Comments and Notes; 1. Relationship Between the Wavefunctions in the Object and Image Planes; 2. A Note on the Dirac δ Function; 3. Effect of an Aperture on the Image; 4. Influence of the Aperture on the Image of a Periodic Object; 5. Evolution of the Wavefunction in a Thin Lens.
Other Title Print version: Hawkes, Peter W. Particles and Waves in Electron Optics and Microscopy. : Elsevier Science, ©2016 9780128048146
Other Title Particles and waves in electron optics and microscopy