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17–22 Oct 2016
Kyoto International Conference Center
Japan timezone

Laser-driven Ion Acceleration on LFEX for Fast Ignition: State of the Art and Applications

20 Oct 2016, 15:00
20m
Kyoto International Conference Center

Kyoto International Conference Center

Takaragaike, Sakyo-ku, Kyoto 606-0001 Japan
Oral IFE - Inertial Fusion Experiments and Theory Inertial Fusion Experiments & Theory

Speaker

Prof. Akifumi Yogo (Institute of Laser Engineering, Osasa University)

Description

Fusion fast ignition assisted by laser-driven ion beams requires 10 kJ energy deposition onto the fuel core having ~500 g/cm^3 densities. Assuming 100 kJ as a technically manageable energy of the driving laser, the first milestone can be found on 10% conversion efficiency from the laser energy into ions having kinetic energies of 10-30 MeV/u. In this paper, we experimentally investigate the ion acceleration mechanism using kilojoule picosecond laser LFEX. When we expand the pulse duration (FWHM) of the laser from 1.5 ps to 3 ps at the fixed laser intensity of 2.3×10^18 Wcm^-2, the electron temperature measured by Electron Spectrometer (ESM) is drastically enhanced up to 1.2 MeV, which clearly exceeds the ponderomotive potential around 0.2 MeV for the laser intensity used in this measurement. At the duration of 6 ps, the electron temperature turns to decrease, indicating that an optimum duration can be found around 3 ps. In addition, the proton energy, analyzed simultaneously with the electron temperature, reaches 29 MeV at 3 ps and saturates around 30 MeV at 6 ps. We also show that the energy conversion efficiency into the protons drastically grows from 0.2% to 5% when the laser duration is expanded from 1.5 to 6 ps. This fact is advantageous for the ion-driven fast ignition by ions from the viewpoint of the energy deposition onto the core plasma. The efficient ion generation is attributed to the hot electrons anomalously heated by the laser beyond a typical scaling. The electron temperature enhanced via the anomalous mechanism is well reproduced by a Particle-in-Cell simulation. In the presentation, we will show that the enhanced proton energy is explained by newly introducing the anomalous heating effect into the conventional plasma expansion model.
Country or International Organization Japan
Paper Number IFE/1-4

Primary author

Prof. Akifumi Yogo (Institute of Laser Engineering, Osasa University)

Co-authors

Dr Akito Sagisaka (Japan Atomic Energy Agency) Dr Alessio Morace (Institute of Laser Engineering, Osaka University) Dr Atsushi Sunahara (Institute for Laser Technology) Prof. Hideo Nagatomo (Osaka University) Prof. Hiroaki Nishimura (Instiute of Laser Engineering, Osaka University) Prof. Hiroshi AZECHI (Institute of Laser Engineering, Osaka University) Prof. Hiroyuki Shiraga (Institute of Laser Engineering, Osaka University) Prof. Hitoshi Sakagami (National Institute for Fusion Science) Prof. Junji Kawanaka (Instiute of Laser Engineering, Osaka University) Mr Kazuki Matsuo (Instiute of Laser Engineering, Osaka University) Prof. Kiminiori Kondo (Japan Atomic Energy Agency) Mr King Fai Farley Law (Instiute of Laser Engineering, Osaka University) Dr Kohei Yamanoi (Instiute of Laser Engineering, Osaka University) Dr Koichi Ogura (Japan Atomic Energy Agency) Prof. Kunioki Mima (The Graduate School for the Creation of New Photon Industrie) Prof. Mitsuo Nakai (Instiute of Laser Engineering, Osaka University) Dr Natsumi Iwata (Institute of Laser Engineering, Osaka University) Prof. Noriaki Miyanaga (Instiute of Laser Engineering, Osaka University) Mr Sadaoki Kojima (Instiute of Laser Engineering, Osaka University) Prof. Sergei Bulanov (Japan Atomic Energy Agency) Mr Seungho Lee (Instiute of Laser Engineering, Osaka University) Dr Shigeki Tokita (Instiute of Laser Engineering, Osaka University) Prof. Shinsuke Fujioka (Institute of Laser Engineering, Osaka University) Mr Shohei Sakata (Instiute of Laser Engineering, Osaka University) Mr Shota Tosaki (Institute of Laser Engineering, Osaka University) Prof. TOMOYUKI JOHZAKI (Graduate School of Engineering, Hiroshima University) Prof. Takahisa Jitsuno (Instiute of Laser Engineering, Osaka University) Prof. Takayoshi Norimatsu (Institute of Laser Engineering, Osaka University) Dr Takayoshi Sano (Instiute of Laser Engineering, Osaka University) Dr Tetsuo Ozaki (National Institute for Fusion Science) Dr Yasunobu Arikawa (Insituteof Laser Engineering Osaka University) Dr Yasushi Fujimoto (Instiute of Laser Engineering, Osaka University) Prof. Yoshiki Nakata (Instiute of Laser Engineering, Osaka University) Mr Yuki Abe (Instiute of Laser Engineering, Osaka University)

Presentation materials