张东方,beat365中文版官方网站长聘教轨副教授、博士生导师。2006年本科毕业于山东大学,2009年获复旦大学硕士学位,师从钱列加教授,2013年获德国汉堡大学/马克思普朗克研究所博士学位,师从马克思普朗克研究所结构动力学所长Dwayne Miller教授。2015-2017,德国汉堡大学博士后,合作导师Franz Kartner教授,2018-2021德国电子同步加速器研究所研究员。2021年入职beat365中文版官方网站,入选国家(青年)及上海市海外高层次人才计划。
主要从事超快科学研究,将经典超快激光技术推进至超快电子和加速器自由电子激光的崭新方向。在激光驱动太赫兹加速器领域做出突出贡献,设计并实验验证了世界上第一台实用化太赫兹微型控制设备(STEAM),实现激光驱动太赫兹加速电子的世界记录。发表SCI论文多篇,包括以第一/通信作者发表Nature Photonics (两篇),Optica,Physical Review X,Science Advances,Nature communications, Applied Physics Reviews 等高端期刊(IF>10)论文。其中以第一作者和通信作者发表Nature Photonics 封面文章(2018)入选ESI 高被引论文,被Science Daily、Lightsources 等十余家国外科技主流媒体报道,并且在International Photonics and Optoelectronics Meeting 上获得“Frontiers of Information Optoelectronics”奖。入选2019德国赫姆霍兹联合会“领导创新影响力”项目。2024年实现了太赫兹电子枪从概念到应用的跨越,再次在Nature Photonics上发表论文并入选封面文章,并被Gyula Polónyi 和 János Hebling在Nature Photonics上特别新闻报道,入选DESY年度亮点工作。
J. Ying#, X. He#, D. Su, L. Zheng, T. Kroh, T. Rowher, M. Fakhari, G. H. Kassier, J. Ma, P. Yuan, N. H. Matlis, F. X. Kärtner* & D. Zhang*, High gradient terahertz-driven ultrafast photogun. Nat Photonics 18, 758–765 (2024). (封面文章)
D. Zhang*, Y. Zeng, M. Fakhari, X. He, N. H. Matlis and F. X. Kärtner*, Long range terahertz driven electron acceleration using phase shifters. Applied Physics Reviews 9, 031407 (2022).
L. Wang*, U. Niedermayer, J. Ma, W. Liu, D. Zhang* and L. Qian, Spatio-Temporal Coupling Controlled Laser for Electron Acceleration. Communications Physics 5, 1-6 (2022).
D. Zhang, T. Kroh, F. Ritzkowsky, T. Rohwer, M. Fakhari, H. Cankaya, A.-L. Calendron, N. H. Matlis, F. X. Kärtner, Terahertz enhanced DC ultrafast electron diffractometer. Ultrafast Science (2021).
D. Zhang*, M. Fakhari, H. Cankaya, A.-L. Calendron, N. H. Matlis, F. X. Kärtner, Cascaded Multi-cycle terahertz driven ultrafast electron acceleration and manipulation. Phys. Rev. X 10, 011067 (2020).
D. Zhang*, A. Fallahi, H. Ye, M. Hemmer, M. Fakhari, Y. Hua, H. Cankaya, A.-L. Calendron, L. E. Zapata, N. H. Matlis, F. X. Kärtner, Femtosecond phase control in high field Terahertz driven electron acceleration. Optica 6, 872 (2019).
D. Zhang*#, A. Fallahi#, M. Hemmer, X. Wu, M. Fakhari, Y. Hua, H. Cankaya, A.-L. Calendron, L. E. Zapata, N. H. Matlis, F. X. Kärtner, Segmented Terahertz Electron Accelerator and Manipulator (STEAM). Nat Photonics 12, 336–342 (2018). (封面文章)
S. Ideta#, D. Zhang#, S. Artyukhin, A. G. Dijkstra, S. Keskin, R. Cingolani, T. Shimojima, K. Ishizaka, H. Ishii, K. Kudo, M. Nohara, and R. J. D. Miller, Ultrafast Dissolution and Creation of Bonds in IrTe2 Induced by Photodoping. Science Advances 4, eaar3867 (2018).
Y. Jiang, L. C. Liu, H. M Müller‐Werkmeister, C. Lu, D. Zhang, R. L Field, A. Sarracini, G. Moriena, E. Collet, R. J. D. Miller, Structural dynamics upon photoexcitation in a spin crossover crystal probed with femtosecond electron diffraction. Angew. Chemie Int. Ed. 56, 7130–7134 (2017).
W. Huang, A. Fallahi, X. Wu, H. Cankaya, A.-L. Calendron, K. Ravi, D. Zhang, E. A. Nanni, K.-H. Hong, F. X. Kärtner, Terahertz-driven, all-optical electron gun. Optica 3, 1209 - 1212 (2016).
X. Wu, A.-L. Calendron, K. Ravi, C. Zhou, M. Hemmer, F. Reichert, D. Zhang, H. Cankaya, L. E. Zapata, N. Matlis, F. X. Kärtner, Optical generation of single-cycle 10 MW peak power 100 GHz waves. Opt. Express 24, 21059 - 21069 (2016).
M. Hada#, D. Zhang#, J. Hirscht, M. A. Kochman, S. A. Hayes, K. Pichugin, S. Manz, R. Y. N. Gengler, D. A. Wann, T. Seki, G. Moriena, C. A. Morrison, J. Matsuo, G. Sciaini, and R. J. D. Miller, Cold ablation driven by localized forces in alkali halides. Nat Commun. 5, 3863 (2014).
R. Y. N. Gengler, D. Badali, D. Zhang, K. Dimos, K. Spyrou, D. Gournis, and R. J. D. Miller, Revealing the ultrafast process behind the photoreduction of graphene oxide. Nat Commun. 4, 3560 (2013).
D. Zhang, L. Qian, P. Yuan, H. Zhu, S. Wen, and C. Xu, Fiber-array-based detection scheme for single-shot pulse contrast characterization. Opt. Lett. 33, 1969 (2008).
(*corresponding author, #equal contribution)
专利
钱列加,马金贵,袁鹏,王永志,张东方,朱鹤元,“Single-shot pulse contrast measuring device based on non-harmonic long-wavelength sampling pulse” 2015年4月21日授权,美国专利 US9012844B2
钱列加,马金贵,袁鹏,王永志,张东方,朱鹤元,“基于非谐波长波长取样光的脉冲信噪比单次测量装置” 2014年1月8日授权,中国专利 CN102175334B
钱列加,张东方,袁鹏,朱鹤元,“Method and system for detecting single-shot pulse contrast based on fiber array,” 2011年12月6日授权,美国专利 US8071934B2
钱列加,张东方,袁鹏,朱鹤元,“一种基于级联非线性过程的高倍速率多级脉冲压缩方法” 2008年11月5日授权,中国专利CN100431228
欢迎对超快激光技术、超快电子、超快激光光谱学等相关领域感兴趣的同学来实验室攻读硕士、博士学位;同时,欢迎具有相关背景的博士加入我们继续博士后研究。有意者请发邮件至:dongfangzhang@sjtu.edu.cn