彭士香

彭士香,博士,北京大學副教授,博士生導師,研究方向:強流高品質正/負離子源,低能強流離子束空間電荷效應、束流診斷等

基本介紹

  • 中文名:彭士香
  • 畢業院校:中國科學院
  • 學位/學歷:博士
  • 專業方向:強流高品質正/負離子源,低能強流離子束空間電荷效應 
人員介紹,教育經歷:,工作經歷:,獲獎情況,發表文章,

人員介紹

彭士香,博士,副教授,博士生導師,研究方向:強流高品質正/負離子源,低能強流離子束空間電荷效應、束流診斷等

教育經歷:

  • 2000年7月獲得中國科學院電漿物理研究所與英國 Gray Cancer Institute 聯合培養博士學位

工作經歷:

  • 2000/7 至今,北京大學
  • 2004/11-2005/2,德國法蘭克福大學訪問學者

獲獎情況

國際獎項提名3次,分別是ICIS2013的Brightness Award, IBIC2014的Faraday Cup和NIBS2016的Award。
承擔項目情況列表
  • 主持基金面上項目4項(“無銫強流直流高品質負氫離子源的關鍵技術研究”,16/01-19/12;“強流氫分子離子源的探究”,12/02-15/12;“低能強流離子束空間電荷補償機理與技術的研究”,11/01-13/12;“低能強流離子束的輸運和空間電荷補償”,07/01-9/12) 。
  • 聯合主持國家自然科學基金重大研究計畫1項(“ADS高穩定度高可靠性強流質子源及低能束流輸運線研究”,12/01-15/12)。主持中國人民解放軍某部隊“負氫離子源”等國防基礎項目5項;作為子課題負責人,參與973項目 2項,國防項目3項,基金委主任基金1項。作為主要參與者,參加項目4項。

發表文章

2010年以來各種文章70餘篇,其中SCI/EI 收錄50篇。第一作者/通訊作者雜誌文章26篇,其他作者文章12篇。第一作者/通訊作者會議文章25篇,7篇。
第一作者/通訊作者雜誌文章(2010年以來)
  1. Shi-Xiang Peng*, Ai-Lin Zhang, et al., New progress on beam availability and reliability of PKU high intensity CW proton ECR ion source.Chinese Physics B,26(2)2017: 025206.DOI:10.1088/1674-1056/26/2/025206
  2. S. X. Peng*, T. Zhang, et al., Duty factor variation possibility from 1% to 100% with PKU microwave driven Cs-free volume H–sources.Rev. Sci. Instrum.87, 02B125 (2016); Doi: 10.1063/1.4934816.
  3. S. X. Peng*, A. L. Zhang, et al., Improvements of PKU PMECRIS for continuous hundred hours CW proton beam operation.Rev. Sci. Instrum.87, 02A706 (2016); Doi: 10.1063/1.4932399.
  4. S. X. Peng*, F. Zhu, Z. Wang, Y. Gao and Z. Y. Guo, The Deuteron Accelerator Primary Design for BISOL.NIMB376(2016) 420–424
  5. S. X. Peng*,H. T. Ren, et al., CW/Pulsed H−ion beam generation with PKU Cs-free 2.45 GHz microwave driven ion source.AIP Conference Proceedings1655, 070005 (2015); Doi: 10.1063/1.4916485.Nos. 11305004, 91126004 and 11175009.
  6. S. X. Peng*, A. L. Zhang, et al., Continuous operation of 2.45 GHz microwave proton source for 306 hours with more than 50 mA DC beam.Chin. Phys. BVol. 24(7)(2015) 075203. DOI: 10.1088/1674-1056/24/7/075203.
  7. PengShixiang*, Zhang Jingfeng, et al., Modification of NBR surface by low energy and high current ion implantation.Nucl. Phys. Rev.,Nol.32 Suppl.2015.
  8. S. X. Peng*, J. Chen, et al., Commissioning of helium injector for coupled radio frequency quadrupole and separated function radio frequency quadrupole accelerator.Rev. Sci. Instrum.85, 02A712 (2014). http://dx.Doi.org/10.1063/1.4828375.
  9. S. X. Peng*,H. T. Ren, et al., Proton injector acceptance tests for a Dielectric Wall Accelerator (DWA): Characterization of Advanced Injection System of Light Ions (AISLI).NIMA763(2014) 120-123. http://dx.Doi.org/10.1016/j.nima.2014.06.025.
  10. S. X. Peng*, J. Chen, et al., Review on Low Energy High Current Ion Injector.Journal of Anhui Normal University (Natural Science),37(3), May, 2014: 205-211.
  11. S. X. Peng*,P. N. Lu, H. T. Ren, et al., Key Elements of Space Charge Compensation on a Low Energy High Intensity Beam Injector.Rev. Sci. Instrum.84, 033304 (2013).
  12. Yuan Xu,ShiXiangPeng*, et al., Multiple charge ion beam generation with a 2.45 GHz electron cyclotron resonance ion source.SCIENCE CHINA Physics, Mechanics & Astronomy.Accepted March 28, 2017; published online April 15, 2017
  13. O. Tarvainen* andS.X. Peng*, Radiofrequency and 2.45 GHz electron cyclotron resonance H−volume production ion sources.New Journal of Physics,18(2016) 105008. Doi:10.1088/1367-2630/18/10/105008.
  14. J. F. Zhang,S. X. Peng*,et al., Nitrogen ion implantation on the mechanical properties of AISI 420 martensitic stainless steel.Surface and Coatings Technology,305, 132-138(2016). http://dx.Doi.org/10.1016/j.surfcoat.2016.08.022.
  15. A. L. Zhang,S. X. Peng*, et al., Review on space charge compensation in low energy beam transportation.Journal of Anhui Normal University (Natural Science)39(3), 1001-2443 (2016). DOI: 10.14182 /J. cnki.1001-2443.2016.03.001.
  16. A. L. Zhang,S. X. Peng*, et al., Study on space charge compensation in negative hydrogen ion beam.Rev. Sci. Instrum.87, 02B915 (2016); Doi: 10.1063/1.4932557.
  17. H. T. Ren,S. X. Peng*, et al., Commissioning and operation of the deuteron injector for PKUNIFTY project.Rev. Sci. Instrum.85, 02A706 (2014). Doi: 10.1063/1.4826337.
  18. H. T. Ren,S. X. Peng*, et al., Plasma studies of the permanent magnet electron cyclotron resonance ion source at Peking University.Rev. Sci. Instrum.85, 02A927 (2014). Doi: 10.1063/1.4832065.
  19. Y. Xu,S. X. Peng*, et al., High Current H2+and H3+beam Generation by Pulsed 2.45 GHz Electron Cyclotron Resonance Ion Source.Rev. Sci. Instrum.85, 02A943 (2014). Doi:10.1063/1.4850717.
  20. H. T. Ren,S. X. Peng*,et al., Milliampere He2+beam generation with PKU compact 2.45 GHz ECR ion source (PMECRIS).SCIENCE CHINA Physics, Mechanics & Astronomy,56 (2013): 2016-2018. Doi:10.1007/s11433-013-5281-4.
  21. H. T. Ren,S. X. Peng*, et al., Deuteron injector for Peking University Neutron Imaging Facility project.Rev. Sci. Instrum.83, 02B711 (2012). Doi: 10.1063/1.3670345.
  22. H. T. Ren,S. X. Peng*, et al., Intense beams from gases generated by a permanent magnet ECR ion source at PKU.Rev. Sci. Instrum83, 02B905 (2012). Doi:10.1063/1.3669788.
  23. P. N. Lu,S. X. Peng*, et al., Development of High Intensity Beam Emittance Measurement Unit.SCIENCE CHINA,54(2): s287–s291(2011).Doi: 10.1007/s11433-011-4586-4.
  24. P. N. Lu,S. X. Peng*, et al., Preliminary studies on space charge compensation by analyzing residual Argon gas ion signals.Rev. Sci. Instrum.81, 02B711(2010). Doi:10.1063/1.3271257.
  25. H. T. Ren,S. X. Peng*, et al., The deuteron injector progress of the Peking University Neutron Imaging Facility project.Rev. Sci. Instrum.81, 02B714 (2010). Doi:10.1063/1.3273078.
  26. M. Zhang,S. X. Peng*,et al., Upgrade of permanent ECR ion source and its extraction system,Rev. Sci. Instrum.81, 02B715 (2010). Doi:10.1063/1.3277213.
第一作者/通訊作者會議文章
  1. Shixiang Peng*, Tao Zhang, et al., Recent Progress of PKU Microwave Driven Cs-free H- Ion Source.TUE07,NIBS2016,2016/9/12-16, Oxford, UK.
  2. S. X. Peng*A. L. Zhang, et al., Study on Space Charge Compensation of Low Energy High Intensity Ion Beam in Peking University(Invited).WEPM6Y01,HB2016, Malmö, Sweden, July 3-8, 2016 (pp. 453-457).
  3. S. X. Peng*, F. Zhu, et al., The Deuteron Accelerator Primary Design for BISOL.Poster 19,EMIS2015, Grand Rapid, 10-14 May, 2015.
  4. S. X. Peng*,Y. Xu, H. T. Ren, et al., Gas flow influence on negative hydrogen ion generation within the microwave-driven negative ion source.WEPWA027,Proceeding of IPAC2015, Richmond, Virginia, May 3-8, 2015.
  5. S. X. Peng*,H.T. Ren, et al., CW/Pulsed H- Ion Beam Generation with PKU Cs-free 2.45 GHz Microwave Driven Ion Source(Oral).O5-06, 4th International Symposium on Negative Ions, Beams and Sources (NIBS 2014), 6 – 10 October 2014, IPP Garching, Germany.
  6. PengShixiang*, Zhang Jingfeng, et al., Modification of NBR surface by low energy and high current ion implantation(Invited) .2014全國荷電粒子源粒子束學術會議,2014年9月14日-18日,甘肅蘭州。
  7. S. X. Peng*,P. N. Lu, H. T. Ren, J. Zhao, Y. Xu, Z. X. Yuan, J. E. Chen, Method to reduce the system error for high power MSSW emittance meter.TUPB64,Proceedings of IBIC2012, Tsukuba, Japan, 1st-4th, Oct. 2012: 496-498.
  8. S. X. Peng*, H. T. Ren, et al., Advanced Injection System of Light Ions (AISLI) for Dielectric Wall Accelerator. ECRIS2012,WEPP14,Proceeding of ECRIS2012,Sydney, Australia, 25th-28th Sept. 2012.
  9. S. X. Peng*, Z. Z. Song, et al., Status of the High Current Permanent Magnet 2.45GHz ECR Ion Source at PKU.TUCOCK02,Proceedings of ECRIS10,Grenoble, France, August 23-26, 2010:102-104.
  10. Yuan Xu,Shixiang Peng*, et al., Status of Hydrogen Ion Sources at PKU.THB04,CYC2016, 15-Sept. 2016, Zurich, Switzerland.
  11. Y. Xu,S. X. Peng*, et al., Emission Spectroscopy Diagnostic of Plasma Inside 2.45 GHz ECR Ion Source at PKU(Invited).MOOBMH04,Proceedings of ECRIS2014, Nizhny Novgorod, Russia, 24-28 August, 2014.
  12. T. Zhang,S. X. Peng*, et al., PKU 2.45GHz Microwave Driven H–Ion Source Performance Study.THPP115,Proceedings of Linac2014,31 Aug. – 05 Sept. 2014, Switzerland, Geneva.
  13. A. L. Zhang,S. X. Peng*, et al., Measurements of Beam Current and Energy-Dispersion for Ion Beam With Multi-Components.HTPP138,Proceedings of LINAC2014, 31 Aug. – 05 Sept. 2014,Switzerland, Geneva.
  14. A. L. Zhang,S. X. Peng*, et al., Simulation Study of Space Charge Compensation in Low Energy Beam Transport(Invited).AT011,CPAC2014, 2014年10月22-25日,武漢,華中科技大學.
  15. H. T. Ren,S. X. Peng*,et al., The First Intense H–Beam Generated by a Microwave- driven Pure Volume Source.MOPFI034,Proceeding of IPAC13,Shanghai, China, May 12-17, 2013: 360-362.
  16. Y. T. Luo,S. X. Peng*,et al., Numerical Methods to the Space Charge Compensation (SCC) Effect of the LEBT Beam.MOPWO014,Proceeding of IPAC13,Shanghai, China, May 12-17 2013: 915-917.
  17. Y. Xu,S.X. Peng*, et al., Preliminary Results of H2+Beam Generated by a 2.45 GHz Permanent Magnet ECR Ion Source at PKU.MOPFI035,Proceeding of IPAC13,Shanghai, China, May 12-17 2013: 363-365.
  18. J. Chen,S. X. Peng*, et al., Commissioning Results and Progress of a Helium Injector for Coupled RFQ & SFRFQ at Peking University.MOPFI033,Proceeding of IPAC13,May12-17, 2013: 357-359.
  19. H. T. Ren,S. X. Peng*, et al., A Pepper-pot Based Device for Diagnostic of The Single-shot Beam.THUGB102,Proceeding of IPAC13, Shanghai, China, May 12-17, 2013: 3093-3095.
  20. H. T. Ren,S. X. Peng*,et al., A Non-Intercepting Beam Emittance Measurement Device Based on Neutral Beam Fluorescence method at PKU.TUPF10,Proceeding of IBIC2013,Oxford, UK, 15th-19thSept., 2013: 522-524.
  21. H. T. Ren,S. X. Peng*,et al., A Helium Injector for Coupled RFQ and SFRFQ Cavity Project at Peking University. LINAC2012,TUPB034,Proceeding of LINAC2012,Tel Aviv, Israel, Sept. 9th-14th, 2012: 552-554.
  22. H. T. Ren,S. X. Peng*, et al., A Singer-shot Beam characteristic Device Based on the pepper-pot Principle.MOPD45,Proceedings of DIPAC2011,Hamburg, Germany, 16-18 May 2011: 155-157.
  23. P. N. Lu, S.X. Peng*, et al., Four-Dimensional Transverse Emittance Measurement Unit for High Intensity Ion Beams.TUPD65,Proceedings of DIPAC2011,Hamburg, Germany, 16-18 May 2011:455-457.
  24. H. T. Ren,S. X. Peng*,et al., Methods to obtain high intensity proton ion beams with low emittance from ECR ion source at Peking University.THPS021,Proceeding of IPAC2011,Kursaal, San Sebastian, Spain, 4th– 9th, Sept. 2011:2463-2465.
  25. P. N. Lu,S. X. Peng*, et al., Progress on Space Charge Compensation Study in Low Energy High Intensity H+ Beam.MOPS034,Proceeding of IPAC2011,Kursaal, San Sebastian, Spain, 4th– 9th, Sept. 2011:2463-2465.
授權專利
  • 彭士香,任海濤,徐源,張滔,張艾霖,趙捷,一種微博驅動無銫負氫離子源,1.4,中國,ZL201410183645.3;
  • 彭士香,袁忠喜,任海濤,呂鵬南,郭之虞,一種電子迴旋共振離子源,7.10,中國,ZL201110026605.4。
會議報告
會議報告15次,以下為2015-2016年報告列表。
  • HB2016(57th ICFA Advanced Beam Dynamics Workshop on High-Intensity and High-Brightness Hadron Beams),Space Charge Compensation of Low Energy High Intensity Ion Beam(Invited).WEPM6Y01, Malmö, Sweden, 3-8 July 2016.
  • EuCARD2 (Workshop on Upgrading Existing High Power Linacs),H–Source: Challenges in Terms of Current and Emittance, Upgradability(Invited).Lund, Sweden, 8-9 November 2016.
  • CERN,H–Source in Terms of Current and Emittance, Upgradability(Invited).Linac4, Geneva, Switzerland, 9-11 November 2016.
  • The Status of PKU Permanent Magnet45 GHz Microwave DrivenIonSources(Invited),HPPA Mini-workshop 2015, IMP, Lanzhou, China, 13-15 October,2015.
  • NIBS(The 5thInternational Symposium on Negative Ions, Beams and Sources) ,Improvements and Plasma Analysis of PKU Microwave Driven Cs-free H–Ion Source(Oral).TueO7,12-16 Sept. 2016. St. Anne’s College, Oxford, UK.
  • CYC(21th International Conference on Cyclotron and their Applications),Status of PKU H+/H–Ion Source(Oral),THB04,11-16 Sept. 2016,ETH Zürich,Switzerland.
  • 強流負氫離子源的國際發展現狀和北京大學的新進展(Invited).中國物理學會2015年秋季學術會議,中國,長春,2015年9月10-13日。
  • 第16屆全國荷電粒子源粒子束學術會議,離子注入馬氏體表面性能變化研究(Oral)。宜昌9.23-27.

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