先進光源技術研究中心

聶元存
時間:2021-08-11 10:58:26點擊量:




聶元存,特聘研究員

專業方向:加速器物理與技術

聯系方式:nieyuancun@whu.edu.cn

個人簡介:

2011年博士畢業于北京大學核技術及應用專業,導師陳佳洱院士。2013-2018年先后在德國電子同步加速器國家實驗室DESY、歐洲核子研究中心CERN工作,2020年任德國卡爾斯魯厄理工學院KIT新型加速器研究組副組長,20211月入職武漢大學,負責武漢光源直線加速器技術工作。

曾參與、主持國家自然科學基金、德國聯邦政府大科學工程“PETRA III光源注入系統升級(加速器物理負責人)、德國亥姆霍茲聯合會基金法蘭克福中子源FRANZ”、歐盟地平線2020”研究計劃未來環形對撞機概念設計(機器保護專家組成員,系統設計負責人)、上海市科技發展基金高功率電子束輻照裝置(項目負責人)等。

2016-2018CERN Senior Research Fellow資助、入選2019年度上海市浦江人才計劃、獲金山工匠提名獎、上海市金山區創新創業人才團隊扶持。中國物理學會(粒子加速器分會)終身會員,專業權威期刊Nucl. Instrum. Methods Phys. Res., Sect. ANuclear Science and Techniques、國際加速器大會論文集等審稿人。已發表學術論文30余篇,國家專利10項,國際專著章節1篇。

主要研究領域:

(1). 先進同步輻射光源、X射線自由電子激光電子槍與直線加速器研發;

(2). 大型粒子對撞機加速器物理與機器保護設計;

(3). 高功率粒子束與物質相互作用模擬與實驗;

(4). 電子輻照加工與質子、重離子治癌等加速器應用;

(5). 新加速原理等。

代表性成果:

[1] Y. Nie, C. Fichera, L. Mettler, et al., Simulation of hydrodynamic tunneling induced by high-energy proton beam in copper by coupling computer codes, Phys. Rev. Accel. Beams, 22 (2019) 014501. (Editors' Suggestion)

[2] FCC Collaboration, FCC Physics Opportunities - Future Circular Collider Conceptual Design Report Volume 1, The European Physical Journal C, 79 (2019) 474.

[3] FCC Collaboration, FCC-ee: The Lepton Collider - Future Circular Collider Conceptual Design Report Volume 2, The European Physical Journal Special Topics, 228 (2019) 261-623.

[4] Y. Nie, R. Schmidt, V. Chetvertkova, et al., Numerical simulations of energy deposition caused by 50 MeV - 50 TeV proton beams in copper and graphite targets, Phys. Rev. Accel. Beams, 20 (2017) 081001.

[5] Y. Nie, G. Xia, and T. Pacey, Simulations of an energy dechirper based on dielectric lined waveguides, Nucl. Instrum. Methods Phys. Res., Sect. A, 909 (2018) 271-275.

[6] Y.C. Nie, R. Assmann, U. Dorda, et al., Potential applications of the dielectric wakefield accelerators in the SINBAD facility at DESY, Nucl. Instrum. Methods Phys. Res., Sect. A, 829 (2016) 183-186.

[7] Yuancun Nie, Wakefields in THz cylindrical dielectric lined waveguides driven by femtosecond electron bunches, Radiation Physics and Chemistry, 106 (2015) 140-144.

[8] Y.C. Nie, C. Liebig, M. Hüning, and M. Schmitz, Tuning of 2.998 GHz S-band hybrid buncher for injector upgrade of LINAC II at DESY, Nucl. Instrum. Methods Phys. Res., Sect. A, 761 (2014) 69-78.

[9] Y.C. Nie, Y.R. Lu, S.L. Gao, et al., Theoretical and experimental studies on 104 MHz ladder IH-RFQ accelerator, Nucl. Instrum. Methods Phys. Res., Sect. A, 737 (2014) 229-236.

[10] Nie Yuancun, Lu Yuanrong, U. Ratzinger, et al., Chopper model studies for bunch compressor of Frankfurt Neutron Source FRANZ, High Power Laser and Particle Beams, 23 (2011) 490-494. (in Chinese)

[11] NIE Yuan-Cun, LU Yuan-Rong, CHEN Jia-Er, et al., Theoretical Design of a 104 MHz Ladder Type IH-RFQ Accelerator, Chinese Physics Letters, 27 (2010) 112901.

[12] NIE Yuan-Cun, LU Yuan-Rong, CHEN Jia-Er, et al., Beam dynamics and RF design of trapezoidal IH-RFQ with low energy spread, Chinese Physics C, 33 Suppl.II (2009) 105-108.

[13] G. Xia, Y. Nie, O. Mete, et al., Plasma wakefield acceleration at CLARA facility in Daresbury Laboratory, Nucl. Instrum. Methods Phys. Res., Sect. A, 829 (2016) 43-49.

[14] Yuancun Nie, Recent Hydrodynamic-Tunneling Studies, Coupling FLUKA and Autodyn, Workshop on coupling simulation of beam impact on accelerator components (Geneva, Switzerland), 2018. (invited talk)

[15] Y. Nie, Beam impact and machine protection challenges, FCC Week 2018 (Amsterdam, Netherland), 2018. (invited talk)

[16] Y. Nie, Overall machine protection, FCC Week 2018 (Amsterdam, Netherland), 2018. (invited talk)

[17] Y. Nie, Y. Tong, A. Bernhard, et al., Full characterization of the bunch-compressor dipoles for FLUTE, Proceedings of IPAC’21 (Brazil), 2021.

[18] Y.C. Nie, M. Hüning, C. Liebig, and M. Schmitz, Progress in the injector upgrade of the LINAC II at DESY, Proceedings of IPAC’15 (Richmond, USA), 2015.

[19] 聶元存等,一種低能散電子束輻照裝置,ZL 2019 2 1343087.7

[20] 陸元榮,聶元存,陳佳洱等,高真空高功率射頻耦合器,ZL 2011 2 0148351.9

[21] 陸元榮,聶元存,陳佳洱,低能散度梯形射頻四極場加速器,ZL 2010 2 0655122.1



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