C.M. Tang

Publications (2)1.17 Total impact

• Article: Electron Acceleration Based on an Elongated Plasma Channel

  L.M. Chen, K. Nakajima, W. Hong, T. Kameshima, J.F. Hua, H. Kotaki, K. Sugiyama, X.L. Wen, Y.C. Wu, C.M. Tang, Y.Q. Gu, H.S. Peng, S. Kurokawa, J. Koga, S.V. Bulanov, T. Tajima
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  ABSTRACT: Experiments for the laser guiding studies has been carried out with the 30-fs 100-TW Ti:sapphire laser pulse interaction with the underdense plasma produced by a long-slab (1.2 times 10 mm²) gas jet and an ablative laser-triggered discharged capillary. Formation of an extremely long plasma channel with a length (~10 mm) 10 times above the Rayleigh length is observed when the laser pulse power is much higher than the critical power for relativistic self-focusing. The long-self-guiding- channel formation is accompanied by the electron acceleration with a low transverse emittance (< 0.87pi mm mrad) and high electric current (~10 nC/shot), as well as the generation of a quasi- monoenergetic electron bunch with an energy of ~80 MeV. In order to continuously elongate the plasma channel, a 4-cm- scale discharged capillary was used. We successfully demonstrated laser-plasma acceleration of high-quality electron beams up to nearly semigigaelectronvolts. Our results exactly verified the prediction of laser wakefield acceleration through a centimeter- scale plasma channel in the "blowout bubble" regime, where a microscale plasma cavity produced through the ultrarelativistic laser-plasma interactions plays an essential role in the self- injection and acceleration of electrons.
  IEEE Transactions on Plasma Science 09/2008; · 1.17 Impact Factor
• Article: Preliminary Results of Mono-energetic Electron Beams from a Laser-plasma Accelerator Driven by 200 TW Femto Second Pulses

  R. Taki, T. Kameshima, W. M. An, J. F. Hua, W. H. Huang, C. X. Tang, Y. Q. Gu, Y. Guo, W. Hong, C. Y. Jiao, Y. Z. Lin, H. J. Liu, H. S. Peng, L. Sun, C. M. Tang, X. D. Wang, T. S. Wen, X. L. Wen, Y. C. Wu, B. H. Zhang
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  ABSTRACT: Relativistic mono-energetic electron beams have been demonstrated by worldwide laser-plasma accelerator experiments in the range of a few tens TW. Laser-plasma accelerator experiment has been carried out with 200TW, 30fs Ti:Sapphire laser pulses focused on helium gas-jets with F/8.7 optics. Intense mono-energetic electron beams have been produced in the energy range of 30 to 150 MeV by controlling plasma length and density precisely. Images of Thomson scattering and fluorescence side scattering from plasma indicate highly relativistic effects such as a long self-channeling and filamentation as well as energetic electron deflection and intense backward Raman scattering. Preliminary results of the first laser-plasma accelerator experiment in the range of 200TW femto second pulses are presented.
  AIP Conference Proceedings 11/2006; 877(1).