邢慶子,男,博士,清華大學副教授。
基本介紹
- 中文名:邢慶子
- 學位/學歷:博士
- 職業:教師
- 專業方向:加速器物理及套用
- 任職院校:清華大學
個人經歷,主講課程,研究方向,學術成果,
個人經歷
● 1994--1998 清華大學工程物理系工程物理專業 工學學士
● 2008.01--2008.03 日本KEK 訪問學者
● 2006--至今 清華大學工程物理系
● 2004--2006 清華大學物理系 博士後
主講課程
● 主講本科生課程《電磁場數值計算》。
● 參與講授研究生課程《加速器中的脈衝功率技術》。
● 目前指導在讀碩士生一名。
研究方向
● 核科學與技術學科,研究方向為加速器物理及套用。
學術成果
● 博士期間研究課題為“RFQ同時加速強流正負離子束的物理問題研究”,參與了“國家重點基礎研究發展規劃”潔淨核能項目中雙束加速的預研工作。
● 曾參與研究了使用變分法求解盤荷波導中的電磁場。
● 曾進行了向內發射同軸虛陰極振盪器的理論和數值模擬研究。
● 曾參加中國X射線自由電子雷射試驗裝置(CTF)聯合設計組,參與了CTF-HGHG雷射物理初步設計與計算的工作。
● 曾開展了不插入探針快速診斷腔鏈諧振狀態的研究。
● 曾開展了美國MSU FRIB RFQ加速器的高頻計算和水冷系統物理設計
● 曾開展了強流質子直線加速器前端關鍵技術及其RAMI技術的研究。
● 曾開展了四翼型變電壓RFQ加速器場調諧方法的研究。
在研工作:
● 西安200MeV質子套用裝置(XiPAF)直線注入器的研製
[1] Q.Z. Xing, et al. The longitudinal “trapping” phenomenon in the simultaneous acceleration of intense H+ and H- in an RFQ. Nucl. Instr. and Meth. A 538 143~153(2005).
[2] Q.Z. Xing, et al. Two-dimensional theoretical analysis of the dominant frequency in the inward-emitting coaxial vircator. IEEE Trans. Plasma Sci., 2006, 34(3): 584~589
[3] J. Wu, Q.Z. Xing, et al. Field tuning and HOMs measurement of the 9-cell ICHIRO copper cavity model. 13th International Workshop on RF Superconductivity, Beijing, 2007
[4] Q.Z. Xing, et al. Mode analysis of high-power microwave generation in the inward-emitting coaxial Vircator based on computer simulation. IEEE Trans. Plasma Sci., 2009, 37(2): 298~303
[5] Q.Z. Xing, et al. Design of the CPHS RFQ Linac at Tsinghua University. Proceedings of IPAC10. 2010. 792~794
[6] Q.Z. Xing, et al. Development of the 3MeV RFQ for the compact pulsed hadron source at Tsinghua University. Proceedings of LINAC10. 2010
[7] Q.Z. Xing, et al. Spontaneous emission high-gain harmonic generation free-electron laser. Nucl. Instr. and Meth. A 637 S177~S182(2011)
[8] Q.Z. Xing, et al. Construction status of the CPHS RFQ at Tsinghua University. Proceedings of IPAC11. 2011.
[9] Q.Z. Xing, et al. A 3-MeV RFQ accelerator for the Compact Pulsed Hadron Source at Tsinghua University. Physics Procedia, 26(2012): 36~43
[10] J.C. Cai, Q.Z. Xing, et al. Design of the undercuts and dipole stabilizer rods for the CPHS RFQ accelerator. Chinese Physics C, 2012
[11] Q.Z. Xing, et al. Beam dynamics of the 13 MeV/50 mA proton linac for the Compact Pulsed Hadron Source at Tsinghua University. Proceedings of HB2012 conference. 2012
[12] Q.Z. Xing, et al. Tuning and Cold Test of a Four-Vane RFQ with Ramped Inter-Vane Voltage for the Compact Pulsed Hadron Source. CHIN. PHYS. LETT. Vol.30, No.5 (2013)052901
[13] Q.Z. Xing, et al. High power test and beam commissioning of the CPHS RFQ accelerator. Proceedings of IPAC13. 2013
[14] L. Du, X.L. Guan, C.X. Tang, Q.Z. Xing, Preliminary beam dynamics and structure design of one 50mA/CW RFQ with ramped inter-vane voltage. Proceedings of IPAC13. 2013
[15] L. Du, Q.Z. Xing, et al. A fast tuning method for a RFQ accelerator with ramped inter-vane voltage. Nucl. Instr. and Meth. A 726 91~95(2013).
[16] Q.Z. Xing, et al, CPHS Linac status at Tsinghua University. Proceedings of IPAC14. THPME023.
[17] J. Zeng, Q.Z. Xing, et al, Cooling design for the FRIB RFQ cavity at Michigan State University. Proceedings of IPAC14. THPME024.
[18] L. Du, Q.Z. Xing, et al, The design, construction and experiments of a RFQ cold model at Tsinghua University. Proceedings of IPAC14. THPRO095.
[19] Q.Z. Xing, et al, Present status of the high current proton linac at Tsinghua University and its beam measurements and applications. Proceedings of HB2014. TUO3AB01.
[20] Q.Z. Xing, et al., Present status of the 3MeV proton linac at Tsinghua University. Proceedings of LINAC14. THPP137.
[21] X.W. Wang, Q.Z. Sing, et al, Delivery of 3-MeV Proton and Neutron Beams at CPHS: A Status Report on Accelerator and Neutron Activities at Tsinghua University. Physics Procedia, 60(2014): 186~192
[22] Q.Z. Xing, et al, Design of the 7MeV linac injector for the 200MeV synchrotron of the Xi’an Proton Application Facility. Proceedings of IPAC16. MOPMW014.
[23] Q.Z. Xing, et al., Present status of the high current linac at Tsinghua University and its application. Proceedings of HB2016. WEAM3Y01.