L
Lee C. Teng
Researcher at Argonne National Laboratory
Publications - 3
Citations - 515
Lee C. Teng is an academic researcher from Argonne National Laboratory. The author has contributed to research in topics: Muon collider & Ionization cooling. The author has an hindex of 3, co-authored 3 publications receiving 471 citations.
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Status of muon collider research and development and future plans
C. Ankenbrandt,M. Atac,B. Autin,V. Balbekov,Vernon Barger,Odette Benary,J. Scott Berg,M. Berger,E. L. Black,A. Blondel,S. Alex Bogacz,T. Bolton,Shlomo Caspi,Christine M. Celata,Weiren Chou,David B. Cline,John Corlett,L. Cremaldi,H. Thomas Diehl,Alexandr Drozhdin,Richard C. Fernow,D. A. Finley,Yasuo Fukui,Miguel A. Furman,T. A. Gabriel,Juan C. Gallardo,A. Garren,Stephen H. Geer,Ilya F. Ginzburg,Michael A. Green,Hulya Guler,John F. Gunion,Ramesh Gupta,Tao Han,Gail G. Hanson,Ahmed Hassanein,N. Holtkamp,C. Johnson,Carol Johnstone,Stephen A. Kahn,D. M. Kaplan,Eun San Kim,Bruce J. King,Harold Kirk,Yoshitaka Kuno,P. Lebrun,Kevin C. Lee,Peter Lee,Derun Li,David Lissauer,Laurence S. Littenberg,Changguo Lu,Alfredo Luccio,Joseph D. Lykken,Kirk T. McDonald,Alfred D. McInturff,John R. Miller,F. Mills,Nikolai Mokhov,Alfred Moretti,Yoshiharu Mori,David Neuffer,King Yuen Ng,R. J. Noble,J. Norem,Yasar Onel,Robert B. Palmer,Z. Parsa,Yuriy Pischalnikov,Milorad Popovic,E.J. Prebys,Z. Qian,Rajendran Raja,Claude B. Reed,Pavel Rehak,T. Roser,Robert Rossmanith,R.M. Scanlan,Andrew M. Sessler,Brad Shadwick,Quan-Sheng Shu,G. Silvestrov,A.N. Skrinsky,D. A. Smith,Panagiotis Spentzouris,Ray Stefanski,Sergei Striganov,I. Stumer,Don Summers,Valeri Tcherniatine,Lee C. Teng,A. Tollestrup,Yagmur Torun,Dejan Trbojevic,William C. Turner,Sven E. Vahsen,Andreas Van Ginneken,Tatiana A. Vsevolozhskaya,Weishi Wan,Haipeng Wang,R. Weggel,E. H. Willen,Edmund J N Wilson,D. Winn,Jonathan Wurtele,Takeichiro Yokoi,Yongxiang Zhao,Max Zolotorev +107 more
TL;DR: The status of the research on muon colliders is discussed and plans are outlined for future theoretical and experimental studies in this paper, where various components in such colliders, starting from the proton accelerator needed to generate pions from a heavy-$Z$ target, proceeding through the phase rotation and decay, muon cooling, acceleration, storage in a collider ring, and the collider detector.
Journal ArticleDOI
Recent progress in neutrino factory and muon collider research within the Muon Collaboration
Mohammad M. Alsharo'a,C. Ankenbrandt,M. Atac,B. Autin,V. Balbekov,Vernon Barger,Odette Benary,J. Roger J. Bennett,M. Berger,J. Scott Berg,Martin Berz,E. L. Black,A. Blondel,S. Alex Bogacz,M. Bonesini,Stephen B. Bracker,A. Bross,Luca Bruno,E. Buckley-Geer,A. Caldwell,Manuela Campanelli,Kevin W. Cassel,M. Gabriela Catanesi,Subhasis Chattopadhyay,Weiren Chou,David B. Cline,Linda R. Coney,Janet Conrad,John Corlett,L. Cremaldi,Mary Anne Cummings,Christine Darve,F. DeJongh,Alexandr Drozhdin,P. V. Drumm,V. Daniel Elvira,Deborah Errede,Adrian Fabich,William M. Fawley,Richard C. Fernow,M. Ferrario,D. A. Finley,Nathaniel J. Fisch,Yasuo Fukui,Miguel A. Furman,T. A. Gabriel,Raphael Galea,Juan C. Gallardo,Roland Garoby,A. Garren,Stephen H. Geer,Simone Gilardoni,Andreas Van Ginneken,Ilya F. Ginzburg,R. Godang,Maury Goodman,Michael R. Gosz,Michael A. Green,P. Gruber,John F. Gunion,Ramesh Gupta,J.R. Haines,Klaus Hanke,Gail G. Hanson,Tao Han,Michael Haney,D. Hartill,Robert E. Hartline,H. Haseroth,Ahmed Hassanein,Kara Hoffman,N. Holtkamp,E. Barbara Holzer,C. Johnson,Rolland Johnson,Carol Johnstone,Klaus Jungmann,Stephen A. Kahn,Daniel M. Kaplan,Eberhard K. Keil,Eun San Kim,Kwang-Je Kim,Bruce J. King,Harold Kirk,Yoshitaka Kuno,Tony S. Ladran,W. Lau,John G. Learned,Valeri Lebedev,P. Lebrun,Kevin C. Lee,Jacques Lettry,Marco Laveder,Derun Li,Alessandra Lombardi,Changguo Lu,Kyoko Makino,Vladimir Malkin,D. Marfatia,Kirk T. McDonald,Mauro Mezzetto,John R. Miller,F. Mills,Irina Mocioiu,Nikolai Mokhov,Jocelyn Monroe,Alfred Moretti,Yoshiharu Mori,David Neuffer,King Yuen Ng,J. Norem,Yasar Onel,Mark Oreglia,Satoshi Ozaki,Hasan Padamsee,Sandip Pakvasa,Robert B. Palmer,Brett Parker,Z. Parsa,Gregory Penn,Yuriy Pischalnikov,Milorad Popovic,Z. Qian,E. Radicioni,Rajendran Raja,H.L. Ravn,Claude B. Reed,L. Reginato,Pavel Rehak,Robert Rimmer,Thomas J. Roberts,T. Roser,Robert Rossmanith,Roman Samulyak,R.M. Scanlan,Stefan Schlenstedt,P. Schwandt,Andrew M. Sessler,Michael H. Shaevitz,Robert Shrock,Peter Sievers,G. Silvestrov,Nick Simos,Alexander Skrinsky,N. Solomey,P.T. Spampinato,Panagiotis Spentzouris,R. Stefanski,Peter Stoltz,I. Stumer,Don Summers,Lee C. Teng,Peter Thieberger,Maury Tigner,Michael Todosow,A. Tollestrup,Yaǧmur Torun,Dejan Trbojevic,Zafar U. Usubov,Tatiana A. Vsevolozhskaya,Yau Wah,Chun Xi Wang,Haipeng Wang,R. Weggel,Kerry Whisnant,E. H. Willen,Edmund J N Wilson,D. Winn,Jonathan Wurtele,Jonathan Wurtele,Vincent Wu,Takeichiro Yokoi,Moohyun Yoon,Richard York,Simon C. M. Yu,Al Zeller,Yongxiang Zhao,Michael S. Zisman +177 more
TL;DR: In this paper, the status of the effort to realize a first neutrino factory and the progress made in understanding the problems associated with the collection and cooling of muons towards that end are described.
Ionization cooling research and development program for a high luminosity muon collider
C. Ankenbrandt,Milorad Popovic,Raymond J. Stefanski,D. Winn,David Neuffer,S. Alex Bogacz,Andreas Van Ginneken,Thomas R. Kobilarcik,Nikolai Mokhov,Max Zolotorev,Pavel Rehak,Alfred Moretti,Tatiana A. Vsevolozhskaya,Bruce J. King,Robert B. Palmer,Yoshitaka Kuno,William C. Turner,D. A. Finley,Yongxiang Zhao,Juan C. Gallardo,Lee C. Teng,A.N. Skrinsky,D. A. Smith,G. Silvestrov,Z. Parsa,Claude B. Reed,Z. Qian,Harold Kirk,Giorgio Apollinari,Yasuo Fukui,L. Cremaldi,Yoshiharu Mori,Panagiotis Spentzouris,Stephen H. Geer,Andrew M. Sessler,Yasar Onel,Carol Johnstone,V. Balbekov,F. Mills,A. Tollestrup,M. Atac,J. Norem,Changguo Lu,R. J. Noble,Sergei Striganov,Morris Binkley,Richard C. Fernow,Christine M. Celata,Kevin C. Lee,Takeichiro Yokoi,Don Summers,Derun Li,Kirk T. McDonald,Ahmed Hassanein,John Corlett,Stephen A. Kahn,Gail G. Hanson,Rajendran Raja,E.J. Prebys,Alfred D. McInturff,Stephen C. O'Day,David B. Cline,Jonathan Wurtele,P. Lebrun,Yuriy Pischalnikov +64 more
TL;DR: In this paper, a beam cooling technique for high-luminosity muon colliders is proposed, where the beam energy spread can be reduced by introducing a transverse variation in the absorber density or thickness at a location where there is dispersion (the transverse position is energy dependent).