Energy enhancement of the target surface electron by using a 200 TW sub-picosecond laser

J. Y. Mao; O. Rosmej; Y. Ma; M. H. Li; B. Aurand; F. Gaertner; W. M. Wang; J. Urbancic; A. Schoenlein; B. Zielbauer; U. Eisenbarth; V. Bagnoud; F. Wagner; F. Horst; M. Syha; S. Mathias; Y. T. Li; M. Aeschlimann; L. M. Chen; T. Kuehl

doi:10.1364/OL.43.003909

Optics Letters
Vol. 43,
Issue 16,
pp. 3909-3912
(2018)
•https://doi.org/10.1364/OL.43.003909

Energy enhancement of the target surface electron by using a 200 TW sub-picosecond laser

J. Y. Mao, O. Rosmej, Y. Ma, M. H. Li, B. Aurand, F. Gaertner, W. M. Wang, J. Urbancic, A. Schoenlein, B. Zielbauer, U. Eisenbarth, V. Bagnoud, F. Wagner, F. Horst, M. Syha, S. Mathias, Y. T. Li, M. Aeschlimann, L. M. Chen, and T. Kuehl

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J. Y. Mao, O. Rosmej, Y. Ma, M. H. Li, B. Aurand, F. Gaertner, W. M. Wang, J. Urbancic, A. Schoenlein, B. Zielbauer, U. Eisenbarth, V. Bagnoud, F. Wagner, F. Horst, M. Syha, S. Mathias, Y. T. Li, M. Aeschlimann, L. M. Chen, and T. Kuehl, "Energy enhancement of the target surface electron by using a 200 TW sub-picosecond laser," Opt. Lett. 43, 3909-3912 (2018)

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Abstract

One order of magnitude energy enhancement of the target surface electron beams with central energy at 11.5 MeV is achieved by using a 200 TW, 500 fs laser at an incident angle of 72° with a prepulse intensity ratio of $5 \times 10^{- 6}$ . The experimental results demonstrate the scalability of the acceleration process to high electron energy with a longer (sub-picosecond) laser pulse duration and a higher laser energy (120 J). The total charge of the beam is $400 \pm 20 pC (E > 2.7 MeV)$ . Such a high orientation and mono-energetic electron jet would be a good method to solve the problem of the large beam divergence in fast ignition schemes and to increase the laser energy deposition on the target core.

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