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Enhanced laser–plasma interactions using non-imaging optical concentrator targets
Optica ( IF 8.4 ) Pub Date : 2020-01-28 , DOI: 10.1364/optica.375486 Andrew G. MacPhee , David Alessi , Hui Chen , Ginevra Cochran , Mark R. Hermann , Daniel H. Kalantar , Andreas J. Kemp , Shaun M. Kerr , Anthony J. Link , Tammy Ma , Andrew J. Mackinnon , Derek A. Mariscal , David Schlossberg , Riccardo Tommasini , Scott Vonhof , Clifford C. Widmayer , Scott C. Wilks , G. Jackson Williams , Wade H. Williams , Kelly Youngblood
Optica ( IF 8.4 ) Pub Date : 2020-01-28 , DOI: 10.1364/optica.375486 Andrew G. MacPhee , David Alessi , Hui Chen , Ginevra Cochran , Mark R. Hermann , Daniel H. Kalantar , Andreas J. Kemp , Shaun M. Kerr , Anthony J. Link , Tammy Ma , Andrew J. Mackinnon , Derek A. Mariscal , David Schlossberg , Riccardo Tommasini , Scott Vonhof , Clifford C. Widmayer , Scott C. Wilks , G. Jackson Williams , Wade H. Williams , Kelly Youngblood
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Picosecond-scale laser–matter interactions using compound parabolic concentrators have demonstrated strongly relativistic ponderomotive effects with $\sim{10} \times $ increase in x-ray source brightness, positron production and multi-MeV proton acceleration versus flat targets, using a marginally relativistic intensity laser.
中文翻译:
使用非成像光学集中器靶增强激光-等离子体相互作用
使用复合抛物线聚光器的皮秒级激光-物质相互作用已显示出强烈的相对论质动力作用,与平面目标相比,x射线源亮度,正电子产生和多MeV质子加速提高了\\ sim {10} \ times $相对论强度激光。
更新日期:2020-02-20
中文翻译:
使用非成像光学集中器靶增强激光-等离子体相互作用
使用复合抛物线聚光器的皮秒级激光-物质相互作用已显示出强烈的相对论质动力作用,与平面目标相比,x射线源亮度,正电子产生和多MeV质子加速提高了\\ sim {10} \ times $相对论强度激光。
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