High-Energy Electron Scattering TablesPDF电子书下载

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PART Ⅰ：HIGH-ENERGY ELECTRON SCATTERING 1

Ⅰ Introduction 3

Ⅱ Electron Scattering in the Born Approximation 5

Ⅲ Accuracy of the First Born Approximation 8

Ⅳ Choice of Nuclear Models 13

Ⅴ Discussion and Preparation of the Tables 14

Auxiliary Trigonometric Functions 16

Table of Functions；Nuclear Charge Densities and Form Factors 16

Nuclear Charge Density Distributions 23

Nuclear Form Factors 23

Proton and Neutron Cross Sections and Form Factors 23

Point Nucleons 23

Nucleons of Finite Size 26

Aids in Computing Proton and Neutron Form Factors 30

The Deuteron 32

Elastic Electron Scattering from a Deuteron Composed of Point Nucleons 33

Elastic Electron Scattering from a Deuteron Composed of Extended Nucleons 38

Inelastic Electron Scattering from a Deuteron Composed of Point Nucleons 40

Inelastic Electron Scattering from a Deuteron Composed of Extended Nucleons(The Neutron) 43

Nuclei Heavier than the Deuteron 49

The Alpha Particle 49

Nuclei of the First p-Shell 50

Medium Heavy and Heavy Nuclei 51

Energy of Scattered Electron 54

Electron-Electron Scattering 54

Ⅵ Kinematic Relations 56

Incident Electrons 56

Moving Target Nucleus 56

An Angular Relation 57

Relation of Laboratory Angles to CM Angles 57

Angular Distributions in Laboratory and CM Systems 58

Energies in Laboratory and CM Systems 58

Projectiles Heavier than Electrons 59

Momenta of the Particles after Collision 59

Angular Relationship between Laboratory and CM Systems 60

Angular Distributions in Laboratory and CM Systems 60

Energy in CM System 60

Target-Nucleus Distribution 60

Ⅶ Summary of Nuclear Size Parameters 61

Ⅷ Application to Scattering of Muons 64

Ⅸ Graphical Aids to Computation 66

References 77

PART Ⅱ：NUMERICAL TABLES 81

Ⅰ Auxiliary Trigonometric Functions 83

Ⅱ Nuclear Charge Density—Gaussian Model 84

Ⅲ Nuclear Charge Density—Exponential Model 86

Ⅳ Nuclear Charge Density—Hollow Exponential Ⅰ Model 88

Ⅴ Nuclear Charge Density—Hollow Exponential Ⅱ Model 90

Ⅵ Nuclear Charge Density—Yukawa Ⅰ Model 92

Ⅶ Nuclear Charge Density—Yukawa Ⅱ Model 94

Ⅷ Nuclear Charge Density—Hollow Gaussian Model 96

Ⅸ Nuclear Charge Density—Harmonic Well Model(α=1/3，2/3，1，4/3，5/3，2) 98

Ⅹ Nuclear Charge Density—Modified Exponential Ⅰ Model 110

Ⅺ Nuclear Charge Density—Clementel-Villi Model(f=0．2) 112

Ⅻ Nuclear Charge Density—Modified Harmonic Well Model(α1=0．725×10 -13cm；α2=0．300×10 -13cm) 114

ⅩⅢ Nuclear Form Factor—Uniform Model 116

ⅩⅣ Nuclear Form Factor—Gaussian Model 119

ⅩⅤ Nuclear Form Factor—Exponential Model 122

ⅩⅥ Nuclear Form Factor—Shell Model 125

ⅩⅦ Nuclear Form Factor—Hollow Exponential Ⅰ Model 128

ⅩⅧ Nuclear Form Factor—Hollow Exponential Ⅱ Model 131

ⅩⅨ Nuclear Form Factor—Yukawa Ⅰ Model 134

ⅩⅩ Nuclear Form Factor—Yukawa Ⅱ Model 137

ⅩⅪ Nuclear Form Factor—Hollow Gaussian Model 140

ⅩⅫ Nuclear Form Factor—Harmonic Well Model(α=1/3，2/3，1，4/3，5/3，2) 143

ⅩⅩⅢ Nuclear Form Factor—Modified Exponential Ⅰ Model 161

ⅩⅩⅣ Nuclear Form Factor—Clementel-Villi Model(f=0．1，0．2，0．3，0．5，1．0) 164

ⅩⅩⅤ Nuclear Form Factor—Modified Harmonic Well Model(α1=0．725×10 -13 cm；α2=0．300×10 -13 cm) 179

ⅩⅩⅥ Rosenbluth Scattering Cross Sections for Proton and Neutron 182

ⅩⅩⅦ Nuclear Form Factors for the Deuteron Composed of Point Nucleons 224

ⅩⅩⅧ Deuteron Properties of Wave Functions Used in the Electron-Scattering Calculations 225

ⅩⅩⅨ Deuteron Wave Functions 225

ⅩⅩⅩ Inelastic Electric Scattering from a Deuteron Composed of Point Nucleons 226

ⅩⅩⅪ Inelastic Electron Scattering from a Deuteron Composed of Extended Nucleons(α1P=α2P=α2N=0．8×10 -13 cm) 237

ⅩⅩⅫ Inelastic Electron Scattering from a Deuteron Composed of Extended Nucleons(α1P=α2P=0．8×10 -13 cm and α2N=0．6 and 1．0×10 -13 cm) 249

ⅩⅩⅩⅢ Energy of Scattered Electron 259

ⅩⅩⅩⅣ Electron-Electron Scattering Cross Sections 262

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