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赵志

      姓名             赵志
      性别             男
      职称             研究员
      电子邮件       zhaozhi@zjlab.ac.cn
      通讯地址        上海市浦东新区张衡路239号
      个人网页       https://people.ucas.edu.cn/~zhaozhi








招生专业

070202 光学

简历

教育背景

2001    中国科学院武汉物理与数学研究所    理学博士
1997
    华中师范大学    理学硕士
1994
    华中师范大学    理学学士

工作经历

2021~现在 张江实验室 研究员

2015~2021 布鲁克海文国家实验室 研究员

2009~2015 康奈尔大学 副研究员

2006~2009 橡树岭国家实验室 博士后

2004~2006 德国海德堡大学   洪堡、玛丽居里学者

2003~2006    中国科学技术大学兼职副教授

2003~2004    瑞典皇家工学院     博士后

2001~2003   中国科学技术大学 博士后


研究方向

设计建造高功率光纤激光系统、高功率超短脉冲激光系统并应用于自由电子激光装置。

早期从事量子信息研究,与同事一起在实验上首次说明量子纠缠浓缩,四光子纠缠态违背定域实在论的实验检验,五光子量子纠缠,终端开放的量子隐形传态,非破坏性单光子量子逻辑门,非对称性与远程量子克隆,三人量子密钥共享和三人量子密码术等。

从2009年,研究兴趣转向高功率激光领域,为康乃尔大学能量回收线性加速器设计建造了高功率光纤激光系统,获得高亮度的电子源,电子源亮度比其它最好装置高4个数量级;为布鲁克海文国家实验室RHIC对撞机电子冷却项目设计建造高功率激光系统,实现电子对重离子的冷却和超过三年的长期稳定运行。


获奖及荣誉

(1)国家高层次人才项目    2021

(2)美国物理学会年度重要物理进展2006

(3)全国优秀博士后        2005

(4)欧盟玛丽居里学者       2005

(5)德国洪堡学者           2004

(6)美国物理学会年度重要物理进展2004

(7)欧洲理学会年度重要物理进展   2004

(8)麻省理工学院技术研究进展杂志年度精选         2004

(9)中国十大科技进展新闻和中国高校十大科技进展   2004

(10)中国十大科技进展新闻和中国高校十大科技进展   2003

(11)中国科学院院长优秀奖      2002


承担科研项目情况

上海硬X射线自由电子激光装置驱动激光、种子激光和高精度同步系统, 负责人,国家任务,2021-10--2026-12

代表论著

[1]Zhao, Zhi, Minty, Michiko.Ultranarrow bandwidth pulses from a regeneratively mode-locked fiber laser.OPTICS EXPRESS[J].2021,1作者  通讯作者  29(16):25358-25364,

[2]Zhao, Zhi, Mernick, Kevin, Costanzo, Michael, Minty, Michiko.An ultrafast laser pulse picker technique for high-average-current high-brightness photoinjectors.NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT[J].2020,1作者  通讯作者  959:http://dx.doi.org/10.1016/j.nima.2020.163586.
[3]
Kayran, D, Altinbas, Z, Bruno, D, Costanzo, M R, Drees, A, Fedotov, A, V, Fischer, W, Gaowei, M, Gassner, D M, Gu, X, Hulsart, R, Inacker, P, Jamilkowski, J, Jing, Y, Kankiya, P, Kewisch, J, Liu, C, Ma, J, Mernick, K, Miller, T A, Minty, M, Nguyen, L K, Paniccia, M, Pinayev, I, Ptitsyn, V, Schoefer, V, Seletskiy, S, Severino, F, Shrey, T C, Smart, L, Smith, K S, Sukhanov, A, Thieberger, P, Tuozzolo, J, Wang, E, Wang, G, Xu, W, Zaltsman, A, Zhao, He, Zhao, Zhi.High-brightness electron beams for linac-based bunched beam electron cooling.PHYSICAL REVIEW ACCELERATORS AND BEAMS[J].2020,40作者23(2):https://doaj.org/article/e1d89ce61bfb4fd4acf9eaa8d9a75529.
[4]
Gu, X, Altinbas, Z, Badea, S, Bruno, D, Cannizzo, L, Costanzo, M, Drees, A, Fedotov, A, V, Fischer, W, Gassner, D, Gaowei, M, Inacker, P, Jamilkowski, J, Kayran, D, Kewisch, J, Liaw, C J, Liu, C, Mapes, M, Mernick, K, Mi, C, Miller, T A, Minty, M, Nguyen, L, Ptitsyn, V, Sandberg, J, Schoefer, V, Seletskiy, S, Smart, L, Sukhanov, A, Thieberger, P, Tuozzolo, J, Wang, E, Zaltsman, A, Zhao, He, Zhao, Zhi, Bartnik, A, Smolenski, K.Stable operation of a high-voltage high-current dc photoemission gun for the bunched beam electron cooler in RHIC.PHYSICAL REVIEW ACCELERATORS AND BEAMS[J].2020,35作者23(1):https://doaj.org/article/3adc4e80e754483492d0c917f417ad4c.
[5]
Fedotov, A V, Altinbas, Z, Belomestnykh, S, BenZvi, I, Blaskiewicz, M, Brennan, M, Bruno, D, Brutus, C, Costanzo, M, Drees, A, Fischer, W, Fite, J, Gaowei, M, Gassner, D, Gu, X, Halinski, J, Hamdi, K, Hammons, L, Harvey, M, Hayes, T, Hulsart, R, Inacker, P, Jamilkowski, J, Jing, Y, Kewisch, J, Kankiya, P, Kayran, D, Lehn, R, Liaw, C J, Litvinenko, V, Liu, C, Ma, J, Mahler, G, Mapes, M, Marusic, A, Mernick, K, Mi, C, Michnoff, R, Miller, T, Minty, M, Narayan, G, Nayak, S, Nguyen, L, Paniccia, M, Pinayev, I, Polizzo, S, Ptitsyn, V, Rao, T, RobertDemolaize, G, Roser, T, Sandberg, J, Schoefer, V, Schultheiss, C, Seletskiy, S, Severino, F, Shrey, T, Smart, L, Smith, K, Song, H, Sukhanov, A, Than, R, Thieberger, P, Trabocchi, S, Tuozzolo, J, Wanderer, P, Wang, E, Wang, G, Weiss, D, Xiao, B, Xin, T, Xu, W, Zaltsman, A, He Zhao, Zhao, Z.Experimental Demonstration of Hadron Beam Cooling Using Radio-Frequency Accelerated Electron Bunches.Physical Review Letters[J].2020,124(8):https://www.webofscience.com/wos/woscc/full-record/WOS:000515703400003.
[6]
Zhao, Zhi, Sheehy, Brian, Minty, Michiko.Generation of 180 W average green power from a frequency-doubled picosecond rod fiber amplifier.OPTICS EXPRESS[J].2017,1作者  通讯作者  25(7):8138-8143,https://www.webofscience.com/wos/woscc/full-record/WOS:000398536000089.
[7]
Zhao, Zhi, Dunham, Bruce M, Wise, Frank W.Generation of 167 W infrared and 124 W green power from a 1.3-GHz, 1-ps rod fiber amplifier.OPTICS EXPRESS[J].2014,1作者  通讯作者  22(21):25065-25070,https://www.webofscience.com/wos/woscc/full-record/WOS:000344004600043.
[8]
Zhi Zhao, A. Bartnik, F. W. Wise, I. Bazarov, B. M. Dunham.High-power fiber lasers for photocathode electron injector.Phys. Rev. ST – Accel. Beams[J].2014,1作者17(53501):https://journals.aps.org/prab/abstract/10.1103/PhysRevSTAB.17.053501.
[9]
Zhi Zhao, B. M. Dunham, F. W. Wise.Generation of 150 W average and 1 megawatt peak power picosecond pulses from a rod-type fiber amplifier.J. Opt. Soc. Am. B[J].2014,1作者https://opg.optica.org/josab/abstract.cfm?uri=josab-31-1-33.
[10]
Gulliford, Colwyn, Bartnik, Adam, Bazarov, Ivan, Cultrera, Luca, Dobbins, John, Dunham, Bruce, Gonzalez, Francisco, Karkare, Siddharth, Lee, Hyeri, Li, Heng, Li, Yulin, Liu, Xianghong, Maxson, Jared, Christian Nguyen, Smolenski, Karl, Zhao, Zhi.Demonstration of low emittance in the Cornell energy recovery linac injector prototype.PHYSICAL REVIEW SPECIAL TOPICS-ACCELERATORS AND BEAMS[J].2013,16作者16(7):https://doaj.org/article/61451f1601414f6c8e6ef1c1d6d40aef.