Isochoric heating of hot dense matter by magnetization of fast electrons produced by ultra-intense short pulse irradiation

Sentoku Y; Kemp A; Bakeman M; Presura R; Cowan TE

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Isochoric heating of hot dense matter by magnetization of fast electrons produced by ultra-intense short pulse irradiation

机译：通过超强短脉冲辐射产生的快速电子的磁化，等速加热热致密物质

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Ultra-intense short-pulse lasers are important tools for creating short-lived high energy plasmas, however to date, it has not been possible, with this method, to create several hundred eV solid density matter because of the rapid transport of the laser-generated hot electrons throughout the target volume. We propose a new way to isochorically heat matter at solid density to extreme temperatures by magnetic confinement of laser-generated hot electrons for several picoseconds by application of a multi-MG external field. In advance of an experiment at the Nevada Terawatt Facility (NTF), using a 100 TW-class laser, which will be synchronized to a 1MA Z-pinch machine, we have performed theoretical studies using a collisional particle-in-cell codes PICLS, which is optimized for a study of isochoric heating of solid density plasmas.

机译：超高强度短脉冲激光器是产生短寿命高能等离子体的重要工具，但是迄今为止，由于这种激光器的快速传输，使用这种方法不可能产生数百eV的固体密度物质。在整个目标体积中产生热电子。我们提出了一种新方法，通过应用多MG外场，通过将激光产生的热电子磁约束数皮秒，将固体密度等速加热到极限温度。在内华达太瓦工厂（NTF）进行的实验之前，我们将使用100 TW级激光（将其与1MA Z捏合机同步）进行了理论研究，我们使用了碰撞式细胞内微粒代码PICLS，优化用于研究固体密度等离子体的等速加热。

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《Journal de Physique, IV: Proceedings of International Conference》 |2006年第0期|共3页
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Sentoku Y; Kemp A; Bakeman M; Presura R; Cowan TE;
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1. Isochoric heating of hot dense matter by magnetization of fast electrons produced by ultra-intense short pulse irradiation [J] . Sentoku Y, Kemp A, Bakeman M, Journal de Physique, IV: Proceedings of International Conference . 2006,第0期

机译：通过超强短脉冲辐射产生的快速电子的磁化，等速加热热致密物质
2. Input Energy Control Using Electron Beam Diode as Impedance Controller to Study Warm Dense Matter by Pulsed Power Discharge with Isochoric Heating [J] . Tomoaki ITO, Ryota HAYASHI, Tomoki ISHITANI, Plasma and Fusion Research . 2017,第3期

机译：电子束二极管作为阻抗控制器的输入能量控制，通过等时加热脉冲功率放电研究热致密物质
3. Enhanced Isochoric Heating from Fast Electrons Produced by High-Contrast, Relativistic-Intensity Laser Pulses [J] . F. Perez, L. Gremillet, M. Koenig, Physical review letters . 2010,第8期

机译：高对比度，相对论强度激光脉冲产生的快速电子增强的等时加热
4. X-Ray Spectroscopy of Dense Plasmas Produced by Isochoric Heating with Ultrashort Laser Pulses [C] . K. Eidmann, U. Andiel, F. Pisani, American Physical Society Topical Conference on Atomic Processes in Plasmas . 2004

机译：用超短激光脉冲通过Isochoric加热产生的致密等离子体X射线光谱
5. Enhanced hot electron confinement and isochoric heating in high contrast ultra-intense laser produced plasmas via novel conical micro-target design [D] . Rassuchine, Jennifer M. 2007

机译：通过新颖的锥形微靶设计，在高对比度超强激光产生的等离子体中增强了热电子限制和等容加热
6. Magnetized fast isochoric laser heating for efficient creation of ultra-high-energy-density states [O] . Shohei Sakata, Seungho Lee, Hiroki Morita, -1

机译：磁化快速等容激光加热可有效创建超高能量密度状态
7. Input Energy Control Using Electron Beam Diode as Impedance Controller to Study Warm Dense Matter by Pulsed Power Discharge with Isochoric Heating [O] . Tomoaki ITO, Ryota HAYASHI, Tomoki ISHITANI, 2017

机译：用电子束二极管作为阻抗控制器的输入能量控制，通过同载加热研究温脉冲放电研究温致密物质
8. Isochoric Heating of Reduced Mass Targets by Ultra-intense Laser Produced Relativistic Electrons [R] . Neumayer, P., Lee, H. J., Offerman, D., 2009

机译：超强激光产生相对论电子对等质量靶的等容加热

Isochoric heating of hot dense matter by magnetization of fast electrons produced by ultra-intense short pulse irradiation

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