作者简介 理查德·塔尔曼,born in Toronto, Canada, BA and MA in Math at Western University, London, Ontario, received a PhD in Physics, Cal Tech, in 1962. He has been a professor (now emeritus) of physics at Cornell ever since, advancing through the ranks. Like all disciples of Robert Wilson, he has specialized co-equally in elementary particle physics and accelerator physics. Fellow of the American Physical Society. he is author or one of the principal authors of about 40 Physical Review Letters publications and about the same number of longer publications. He is the author of books Geometrical Mechanics (2nd edition), and Accelerator X-Ray Sources, and has supervised 19 successful PhD thesis candidates. He was group leader of the Instrumentation and Diagnostics Group at the late, lamented, S.S.C. project in Texas. He has spent sabbaticals at CERN (twice), SLAC, the Central Design Group at Lawrence Berkeley Lab and at the Canadian Light Source in Saskatoon. He has taught numerous courses at the U.S. Particle Accelerator School, most recently a course All-Electric Accelerators (for electric dipole measurement) at the University of California, Davis in 2017 (with the present book as text).
目录 Preface Author biography 1 Symmetry, physical laws, and electric dipole moments 1.1 Introduction 1.2 Force field symmetries 1.2.1 Vectors 1.2.2 Vectors and pseudovectors 1.2.3 Modern analog of the Ampere experiment 1.3 Why measure EDMs, which, and how? 2 Some essential experiments 2.1 Neutron EDM measurements 2.2 Penning traps and Penning-like traps 2.3 Electron EDM measurement using polar molecule enhancement 2.4 The future References 3 Magnetic precessions 3.1 Cyclotron rotation, gyromagnetic ratio, and Larmor precession 3.1.1 Classical picture 3.1.2 Magnetic moment parameterization 3.2 Storage ring EDM measurement 3.3 Spurious magnetic precessions 3.3.1 Reducing the influence of environmental magnetic fields 3.3.2 Low frequency magnetic fields 3.3.3 Neutron EDM magnetic precessions 3.3.4 Magnetic noise comparison of neutron and proton EDM experiments References 4 Just enough accelerator physics 4.1 Preview 4.2 The uniform field ring 4.3 Horizontal stability 4.4 Vertical stability 4.5 Simultaneous horizontal and vertical stability 4.6 Dispersion 4.7 Momentum compaction 4.8 Chromaticity 4.9 Transfer matrices 4.10 Transfer matrices for simple elements 4.10.1 Drift space 4.10.2 Thin lens 4.11 Transfer matrix parameterization 4.12 Strong focusing 4.13 General transverse motion 4.13.1 Magnetic deflections 4.13.2 Element strengths and deviations 4.13.3 Nonlinear magnetic field example Reference 5 All-electric particle dynamics 5.1 Background 5.2 Introduction
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