导语

  

内容提要

  

    本书在总结作者多年教学科研成果的基础上，简明扼要地介绍了束流物理学原理和粒子加速器原理，并着重于对数值示例的阐释，以新的材料和图形、改进的符号以及新的或增强的计算机资源扩展了课堂讨论的内容，还对全部资料进行了组织编排。本书共分为七章，包括实例和计算机练习，主要内容有基本的透镜和偏转器、边缘场、晶格和束函数、同步加速器辐射、束包络匹配、电子感应加速器共振、色散、横向和纵向空间电荷以及闭合轨道等内容。

    圣地亚哥·博纳尔(Santiago Bernal)，1981年在哥伦比亚波哥大的国立哥伦比亚大学获得物理学学士学位，1983年获得乔治亚理工学院的物理学硕士学位，1999年获得马里兰大学学院的物理学博士学位。他是在已故的马丁·赖泽(Martin Rei-ser)教授的指导下攻读博士学位。在马里兰大学攻读研究生之前，博纳尔曾在哥伦比亚和波多黎各教授大学物理和数学课程。博纳尔于2000年加入UMER小组进行博士后的研究，后来成为电子与应用物理研究所(IREAP)的研究科学家。他参与了UMER的设计和建设，并且一直是该项目的首席实验物理学家。博纳尔帮助UMER为2008年美国粒子加速器学校组织和开展了实验课程。除了束和加速器物理，博纳尔还对统计力学和物理教育的各个方面感兴趣。

Preface to the second edition
Acknowledgements
Author biography
1 Rays,matrices,and transfer maps
  1.1 Paraxial approximation
  1.2 Thin lens
  1.3 Thick lens
  1.4 Transfer maps
  1.5 Computer resources
  References
2 Linear magnetic lenses and deflectors
  2.1 Magnetic rigidity,momentum,and cyclotron frequency
  2.2 Solenoid focusing
  2.3 Quadrupole focusing
  2.4 The Kerst-Serber equations and weak focusing
  2.5 Dipoles and edge focusing
  2.6 Effective hard-edge model of fringe fields in focusing magnets
  2.7 Computer resources
  References
3 Periodic lattices and functions
  3.1 Solenoid lattice
  3.2 FODO lattice
  3.3 Lattice and beam functions
  3.4 Uniform-focusing('smooth') approximation
  3.5 Linear dispersion
  3.6 Momentum compaction,transition gamma,and chromaticity
  3.7 Computer resources
  References
4 Emittance and space charge
  4.1 Liouville's theorem and emittance
  4.2 The Kapchinskij-Vladimirskij(K-V)and thermal distributions
  4.3 Thermodynamics of charged-particle beams?
  4.4 The K-V envelope equations and space-charge (SC)
  intensity parameters
  4.5 Incoherent space-charge (SC) betatron tune shift
  4.6 Coherent tune shift and Laslett coefficients
  4.7 Computer resources
  References
5 Longitudinal beam dynamics and radiation
  5.1 Radio-frequency (RF) linacs [1]
  5.2 Beam bunch stability and RF bucket
  5.3 Synchrotron radiation [1]
  5.4 Insertion devices and free-electron lasers (FELs) [1]
  5.5 Longitudinal beam emittance and space charge
  5.6 Computer resources
  References
6 Envelope matching, resonances, and dispersion
  6.1 Cell envelope FODO matching
  6.2 Source-to-cell envelope matching
  6.3 Betatron resonances
  6.4 Betatron resonances and space charge
  6.5 Dispersion and space charge
  6.6 Computer resources
  References
7 Linacs and rings (examples),closed orbit, and beam cooling
  7.1 Examples of linacs
  7.2 Examples of rings
  7.3 Closed orbit and correction
  7.4 Beam cooling
  7.5 Computer resources
  References
Appendix: Computer resources and their use
编辑手记