Enhanced betatron radiation by steering a laser-driven plasma wakefield with a tilted shock front

Changhai Yu, Jiansheng Liu, Wentao Wang, Wentao Li, Rong Qi, Zhijun Zhang, Zhiyong Qin, Jiaqi Liu, Ming Fang, Ke Feng, Ying Wu, Lintong Ke, Yu Chen, Cheng Wang, Yi Xu, Yuxin Leng, Changquan Xia, Ruxin Li, Zhizhan Xu

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Abstract

We have experimentally realized a scheme to enhance betatron radiation by manipulating transverse oscillation of electrons in a laser-driven plasma wakefield with a tilted shock front (TSF). Very brilliant betatron x-rays have been produced with significant enhancement both in photon yield and peak energy but almost maintain the e-beam energy spread and charge. Particle-in-cell simulations indicate that the accelerated electron beam (e beam) can acquire a very large transverse oscillation amplitude with an increase in more than 10-fold, after being steered into the deflected wakefield due to the refraction of the driving laser at the TSF. Spectral broadening of betatron radiation can be suppressed owing to the small variation in the peak energy of the low-energy-spread e beam in a plasma wiggler regime. It is demonstrated that the e-beam generation, refracting, and wiggling can act as a whole to realize the concurrence of monoenergetic e beams and bright x-rays in a compact laser-wakefield accelerator.

Original languageEnglish
Article number133503
Number of pages5
JournalApplied Physics Letters
Volume112
Issue number13
DOIs
Publication statusPublished - 27 Mar 2018

Keywords

  • betatrons
  • synchrotrons
  • synchrotron radiation
  • x-rays
  • plasma density
  • charge coupled devices

Cite this

Yu, C., Liu, J., Wang, W., Li, W., Qi, R., Zhang, Z., Qin, Z., Liu, J., Fang, M., Feng, K., Wu, Y., Ke, L., Chen, Y., Wang, C., Xu, Y., Leng, Y., Xia, C., Li, R., & Xu, Z. (2018). Enhanced betatron radiation by steering a laser-driven plasma wakefield with a tilted shock front. Applied Physics Letters, 112(13), [133503]. https://doi.org/10.1063/1.5019406