J
Jose Chan
Researcher at Stanford University
Publications - 8
Citations - 270
Jose Chan is an academic researcher from Stanford University. The author has contributed to research in topics: Particle accelerator & Klystron. The author has an hindex of 4, co-authored 8 publications receiving 263 citations.
Papers
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Journal ArticleDOI
High-Power Multimode X-Band RF Pulse Compression System for Future Linear Colliders
Sami Tantawi,Christopher Nantista,Valery Dolgashev,C. Pearson,Janice Nelson,Keith Jobe,Jose Chan,K.S. Fant,Josef Frisch,Dennis P. Atkinson +9 more
TL;DR: In this article, a multimode $X$-band rf pulse compression system suitable for a TeV-scale electron-positron linear collider such as the Next Linear Collider (NLC).
Proceedings ArticleDOI
High Gradient Performance of NLC/GLC X-Band Accelerating Structures
Steffen Döbert,Chris Adolphsen,Gordon Bowden,D. L. Burke,Jose Chan,Valery Dolgashev,J.C. Frisch,Keith Jobe,Roger Jones,James Lewandowski,R.E. Kirby,Zenghai Li,D. McCormick,Robert J. Miller,C. Nantista,J. Nelson,C. Pearson,M.C. Ross,D.C. Schultz,Tonee Smith,Sami Tantawi,J.W. Wang,T. Arkan,C. Boffo,H. Carter,Ivan Gonin,T.N.Khabiboulline,S. Mishra,Gennady Romanov,Nikolay Solyak,Y. Funahashi,Hitoshi Hayano,N. Higashi,Yasuo Higashi,Toshiyasu Higo,H. Kawamata,Tatsuya Kume,Y. Morozumi,K. Takata,Toshikazu Takatomi,N. Toge,K. Ueno,Y. Watanabe +42 more
TL;DR: A 60 cm-long traveling-wave structure with low group velocity and 150 degree per cell phase advance is proposed in this paper, which has an average iris size that produces an acceptable short-range wakefield, and dipole mode damping and detuning that adequately suppresses the long range wakefield.
ReportDOI
Status of a linac rf unit demonstration for the nlc/glc x-band linear collider*
David Schultz,Chris Adolphsen,D. L. Burke,Jose Chan,Steffen Doebert,Valery Dolgashev,Christopher Nantista,Janice Nelson,Marc Ross,Sami Tantawi,Yong Ho Chin,Sergei Kazakov,Andrei Lounine,Toshiyuki Okugi +13 more
TL;DR: In this paper, the authors describe the layout of their system and the various high-power components which comprise it, as well as preliminary data on the processing and initial high power operation of this system.
ReportDOI
Experimental Demonstration of an RF System for the X-Band Linear Collider
C. Adolphsen,E. Andrikopoulos,D. Burke,Jose Chan,V. Dolgashev,K. Jobe,D. McCormick,J. Nelson,K. Ratcliffe,M. Ross,D.C. Schultz,T. J. Smith,D. Atkinson,S. Kazakov,A. Lounine,Toshiyuki Okugi +15 more
TL;DR: In this paper, the authors describe the tunnel layout plan for a future X-band linear collider (NLC/GLC) with a dual-moded SLED-II pulse compression system, with a gain of approximately three at a compression ratio of four.
ReportDOI
Progress toward nlc/glc prototype accelerator structures*
Chris Adolphsen,G. Bowden,Jose Chan,J. Cornuelle,S. Doebert,V. Dolgashev,J. Lewandowski,Z. Li,C. Nantista,N. Baboi,C. Pearson,S. Tantawi,L. Xiao Slac,T. Higo,Y. Higashi,T. Kumi,Y. Morozumi,N. Toge,K. Ueno,T. Arkan,C. Boffo,H. Carter,D. Finley,I. Gonin,T.N.Khabiboulline,S. Mishra,G. Romanov,N. Solyak +27 more
TL;DR: The accelerator structure groups for NLC (Next Linear Collider) and GLC (Global Linear Colliders) have successfully collaborated on the research and development of a major series of advanced accelerator structures based on room-temperature technology at Xband frequency.