自由电子激光的经典理论(英文)9787560394961
正版图书,可开发票,请放心购买。
¥ 42.65 6.3折 ¥ 68 全新
库存3件
广东广州
认证卖家担保交易快速发货售后保障
作者[加]埃里克·B.沙姆斯
出版社哈尔滨工业大学出版社有限公司
ISBN9787560394961
出版时间2020-04
装帧平装
开本16开
定价68元
货号11292240
上书时间2024-12-05
- 店主推荐
- 最新上架
商品详情
- 品相描述:全新
- 商品描述
-
作者简介
[加]埃里克·B.沙姆斯,Originally from British Columbia, Canada, Eric Szarmes received his Bachelor of Applied Science in Engineering Physics from the University of British Columbia in 1985, and his PhD in Applied Physics from Stanford University in 1992, where he did his doctoral research in high resolution free-electron laser spectroscopy under Professor John Madey. He was a postdoctoral research scientist at the Duke Free-Electron Laser Laboratory from 1992 to 1998, where he made pioneering contributions to the phase-locked and chirped-pulse free-electron laser. In 1998 he joined the faculty of the University of Hawaii where he is currently an associate professor of physics. His current research interests include the theory and design of novel optical resonators for high-resolution free-electron laser spectroscopy, x-ray generation and high-field physics. His greatest passion is for teaching.
目录
Preface
Acknowledgements
Author biography
1 Introduction and overview
1.1 The free-electron laser
1.2 Classical stimulated emission
1.3 Electron bunching
1.4 FEL equations of motion
References
2 The classical limit
2.1 Emission and absorption
2.2 Compton recoil
2.3 Wavepacket spreading
References
3 Electron beam dynamics
3.1 Phase space and emittance
3.1.1 Beam envelope equation
3.2 Focusing properties of the undulator
3.3 Matching into the FEL
Reference
4 Undulator trajectories
4.1 Transverse motion
4.2 Longitudinal motion
5 Spontaneous emission
5.1 Spectral lineshape
5.2 Spontaneous power (weak undulator fields)
5.3 Spontaneous power (strong undulator fields)
References
6 Effect of the optical field on electron motion
6.1 The Lorentz equation
6.2 The FEL pendulum equation
References
7 Effect of electron motio~ on the optical field
7.1 The wave equation
7.2 Transverse currents
7.3 The FEL wave equation
7.4 Energy conservation
References
8 Transverse modes in the equations of motion
8.1 Superposition of transverse modes
8.2 The mode evolution equation
8.3 The multimode pendulum equation
8.4 The filling factor
References
9 Small-signal gain--first derivation
9.1 Gain from energy conservation
9.2 Gain-spread theorem
9.3 Approximate solution of the FEL equations
9.4 Gouy phase shift
References
精彩内容
本书是一部英文版的物理学专著。本著作的教学目的是为学生和研究人员提供对实用的经典FEL物理学的连贯描述。
— 没有更多了 —
以下为对购买帮助不大的评价