(简称:上海光机所)成立于1964年5月,是我国建立最早、规模最大的激光科学技术专业研究所。发展至今,已形成以探索现代光学重大基础及应用基础前沿、发展大型激光工程技术并开拓激光与光电子高技术应用为重点的综合性研究所。研究...
截至2023年12月,上海光机所在职职工1042人(其中高级专业技术人员530人),博士后114人。包括:两院院士7人(其中发展中国家科学院院士3人)、中国科学院外籍院士1人,国家重点研发计划首席科学家9位、国家重大专项副总设计师2人、国家重大专项总体专家组成员9人、全国创新争先奖状2人、何梁何利基金科学与技术进步奖1人、中国青年科技奖(特别奖)1人、国家杰出青年基金获得者7人、国家优秀青年基金获得者4人、1个团队连续获得2项国家基金委创新研究群体支持、国家特支计划领军人才入选者6人、国家特支计划青年拔尖人才入选者5人……
(简称:上海光机所)是我国建立最早、规模最大的激光专业研究所,成立于1964年,现已发展成为以探索现代光学重大基础及应用基础前沿研究、发展大型激光工程技术并开拓激光与光电子高技术应用为重点的综合性研究所。重...
上海光机所国际合作工作始终围绕上海光机所的主责主业,以服务重大任务和国家需求为牵引,强化目标导向,注重内外集成协同,加强重大国际合作任务的谋划。坚持“战略布局,需求牵引,技术引领,合作共赢”的原则,基于科技部授予的国家国际科技合作基地及本单位学科技术优势,围绕“一带一路”国家倡议,深化拓展与发达国家实质性合作,夯实海外机构建设,积极培育和发起国际大科学计划,加强国际组织任职推荐,组织相关国际会议等,汇聚各类国际人才,建立以“平台-人才-项目-组织”合作模式,融入全球创新合作网络,助力上海光机所成为国际一流科研机构。上海光机所国际合作一直得到所领导的高度重视,历届所长亲自主管国际合作。1972年,上海光机所接待诺贝尔奖的美籍华裔科学家杨振宁,标志着我所第一次对外开放。2007年,被科技部首批授予“科技部国际科技合作基地”。2016年,科技部首次对全国2006-2008年间认定的113家国际合作基地进行了评估,上海光机所获评“优秀”。2021年,科技部首次对全国719家国际合作基地进行了评估,上海光机所持续获评“ 优秀”。王岐山副主席到上海光机所视察时,对上海光机所近几年取得的系列科技成果,以及重大国际合作项目“中以高功...
作为我国建立最早、规模最大的激光科学技术专业研究所,和首批上海市科普教育基地之一, (简称:上海光机所)在致力于科技创新的同时,十分重视科普工作。多年来,上海光机所借助科研院所强大的科普资源优势,围绕光学与激光科学技术,积极开展公众开放日、科普讲座、科技课堂、科普作品创...
报告人:Prof. Hiromitsu Kiriyama
会议时间:10月19日(周四)11:00
会议地点:王大珩厅
报告内容:
We described the output performance and temporal quality enhancement of the J-KARENP petawatt laser facility. After wavefront correction using a deformable mirror, focusing with an f/1.3 off-axis parabolic mirror delivered a peak intensity of 10^22 W/cm^2 at 0.3 PW power levels. Technologies to improve the temporal contrast were investigated and tested. The origins of pre-pulses generated by post-pulses were identified and the elimination of most pre-pulses by removal of the post-pulses with wedged optics was achieved. A cascaded femtosecond optical parametric amplifier based on the utilization of the idler pulse rather than the signal pulse was developed for the complete elimination of the remaining pre-pulses. The orders of magnitude enhancement of the pedestal before the main pulse were obtained by using a higher surface quality of the convex mirror in the Öffner stretcher. A single plasma mirror was installed in the J-KAREN-P laser beam line for further contrast improvement of three orders of magnitude. The above developments indicate, although it has not been directly measured, the contrast can be as high as approximately 10^15 up to 40 ps before the main pulse. We also showed an overview of the digital transformation (DX) of the system, enabling remote and automated operation of the J-KAREN-P laser facility.
报告人简介:
Hiromitsu Kiriyama was born in Osaka, Japan. He received a Ph.D. degree in electrical engineering from Osaka University, Osaka, Japan, in 1998. His doctoral thesis focused on high power laser-diode pumped solid-state lasers for inertial confinement fusion at the Institute of Laser Engineering, Osaka University, Osaka, Japan. In 1998, he joined the Advanced Photon Research Center, Japan Atomic Energy Research Institute (JAERI), Kyoto, Japan. He is currently a Group Leader with the Advanced Laser Science Group, Kansai Institute for Photon Science (KPSI), National Institutes for Quantum Science and Technology (QST) (previously JAERI and the Japan Atomic Energy Agency). He is currently involved in laser research and development efforts and their applications for high field science. From 2010 to 2015, he was a Professor at the Graduate School of Life and Medical Science in the Collaborative Program at Doshisha University, since 2019 he has been a Professor at the Graduate School of Science and Engineering in the Collaborative Program at Doshisha University, Kyoto, Japan.
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