• Overview of Chinese core journals
  • Chinese Science Citation Database(CSCD)
  • Chinese Scientific and Technological Paper and Citation Database (CSTPCD)
  • China National Knowledge Infrastructure(CNKI)
  • Chinese Science Abstracts Database(CSAD)
  • JST China
  • SCOPUS
Quasi-monoenergetic electron bunches generated from laser wakefield acceleration[J]. PHYSICS, 2006, 35(12): 1028-1033.
Citation: Quasi-monoenergetic electron bunches generated from laser wakefield acceleration[J]. PHYSICS, 2006, 35(12): 1028-1033.

Quasi-monoenergetic electron bunches generated from laser wakefield acceleration

More Information
  • Published Date: December 19, 2006
  • Significant progress has been achieved in enhancing the energy and quality of electron beams since the proposal of laser wakefield acceleration by Tajima and Dawson more than 20 years ago. Breakthroughs in the generation of quasi-monoenergetic electron beams in several laboratories in 2004 spurred new interest in this type of compact accelerator. Even though its mechanism is not yet completely understood, it is believed that the so-called bubble acceleration is one of the main mechanisms. The basic principle of the laser wakefield acceleratorwill be explained briefly and wavebreaking and self-injection in the bubble regime described, including recent experimental and theoretical progress.
  • Related Articles

    [1]NIU Qian, GAO Yang. Evolution of electron's particle view[J]. PHYSICS, 2024, 53(1): 1-11. DOI: 10.7693/wl20240101
    [2]XU Tian-Qi, WU Xue-Zhi, YAN Xue-Qing. Development and prospects of laser ion accelerators[J]. PHYSICS, 2021, 50(10): 671-677. DOI: 10.7693/wl20211003
    [3]SHENG Zheng-Ming, CHEN Min, WENG Su-Ming, YUAN Xiao-Hui, CHEN Li-Ming, ZHANG Jie. Novel particle accelerators driven by ultrashort and ultraintense lasers: opportunities and challenges[J]. PHYSICS, 2018, 47(12): 753-762. DOI: 10.7693/wl20181201
    [4]SUN Zhi-Bin, FAN Jia-Dong, JIANG Huai-Dong. Single particle imaging with X-ray free electron lasers[J]. PHYSICS, 2018, 47(8): 491-502. DOI: 10.7693/wl20180802
    [5]Diagnostics based on back-streaming ions produced in beam-target interactions[J]. PHYSICS, 2010, 39(06): 426-430.
    [6]Laser-induced electron acceleration in vacuum[J]. PHYSICS, 2007, 36(01): 32-38.
    [7]A tabletop accelerator——the laser wakefield accelerator[J]. PHYSICS, 2006, 35(12): 1016-1027.
    [8]ELECTRON BEAM ION TRAPS AND HIGHLY CHARGED ION RELEVANT PHYSICS[J]. PHYSICS, 2003, 32(02).
    [9]A NEW MECHANISM OF ELECTRON ACCELERATION WITH RELATIVISTIC-INTENSE LASER PULSES IN PLASMA[J]. PHYSICS, 2003, 32(01).
    [10]Spin polarization electron microscopy and monte-carlo simulation[J]. PHYSICS, 2002, 31(12).

Catalog

    Article views (61) PDF downloads (2288) Cited by()

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return