Laser Acceleration of Highly Energetic Carbon Ions Using a Double-Layer Target Composed of Slightly Underdense Plasma and Ultrathin Foil

Laser Acceleration of Highly Energetic Carbon Ions Using a Double-Layer Target Composed of Slightly Underdense Plasma and Ultrathin Foil

We report the experimental generation of highly energetic carbon ions up to 48 MeV per nucleon by shooting double-layer targets composed of well-controlled slightly underdense plasma and ultrathin foils with ultraintense femtosecond laser pulses. Particle-in-cell simulations reveal that carbon ions...

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Veröffentlicht in:Physical review letters 2019-01, Vol.122 (1), p.014803-014803, Article 014803
Hauptverfasser: Ma, W J, Kim, I Jong, Yu, J Q, Choi, Il Woo, Singh, P K, Lee, Hwang Woon, Sung, Jae Hee, Lee, Seong Ku, Lin, C, Liao, Q, Zhu, J G, Lu, H Y, Liu, B, Wang, H Y, Xu, R F, He, X T, Chen, J E, Zepf, M, Schreiber, J, Yan, X Q, Nam, Chang Hee
Format: Artikel
Sprache:eng
Schlagworte:
Acceleration
Carbon
Ejection
Femtosecond pulses
Flux density
Foils
Heavy ions
Lasers
Nuclear physics
Particle in cell technique
Physics
Plasmas (physics)
Radiation pressure
Sheaths
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Zusammenfassung:We report the experimental generation of highly energetic carbon ions up to 48 MeV per nucleon by shooting double-layer targets composed of well-controlled slightly underdense plasma and ultrathin foils with ultraintense femtosecond laser pulses. Particle-in-cell simulations reveal that carbon ions are ejected from the ultrathin foils due to radiation pressure and then accelerated in an enhanced sheath field established by the superponderomotive electron flow. Such a cascaded acceleration is especially suited for heavy ion acceleration with femtosecond laser pulses. The breakthrough of heavy ion energy up to many tens of MeV/u at a high repetition rate would be able to trigger significant advances in nuclear physics, high energy density physics, and medical physics.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.122.014803