7 Papers
128 Citations
D. Ross is an academic researcher from Massachusetts Institute of Technology. The author has contributed to research in topics: Detector & Particle detector. The author has an hindex of 5, co-authored 7 publications.
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Papers
The PHOBOS collaboration
B. Alver,B. B. Back,M. D. Baker,M. Ballintijn,D. S. Barton,S. Basilev,B. D. Bates,R. Baum,Bruce Becker,Russell Richard Betts,A. Bialas,A. A. Bickley,R. Bindel,W. Bogucki,A. Budzanowski,Wit Busza,A. S. Carroll,M. Ceglia,Z. Chai,Yuan-Hann Chang,A. E. Chen,V. Chetluru,T. Coghen,C. Conner,W. Czyz,Bogdan Dabrowski,M. P. Decowski,M. Despet,P. Fita,J. Fitch,M. Friedl,K. Gałuszka,R. Ganz,E. García,T. Gburek,N. George,Jan Godlewski,C. Gomes,E. Griesmayer,K. Gulbrandsen,S. Gushue,J. Halik,C. Halliwell,J. Hamblen,P. Haridas,I. Harnarine,A. S. Harrington,M. Hauer,A. B. Hayes,G. A. Heintzelman,Conor Henderson,David Jonathan Hofman,R. S. Hollis,R. Holynski,Burt Holzman,A. Iordanova,E. Johnson,J. L. Kane,J. Katzy,N. Khan,W. Kita,J. Kotula,H.W. Kraner,W. Kucewicz,P. Kulinich,Chia-Ming Kuo,C. Law,J.W. Lee,M. Lemler,Wei Li,J. Ligocki,W. T. Lin,C. Loizides,S. Manly,D. McLeod,J. Michałowski,Alice Mignerey,Johannes Mülmenstädt,M. Neal,A. Noell,Rachid Nouicer,Andrzej Olszewski,R. Pak,Inkyu Park,M. Patel,Heinz Pernegger,M. Plesko,C. Reed,L. P. Remsberg,M. Reuter,E. Richardson,Christof Roland,Gunther Roland,L.J. Rosenberg,D. Ross,John P. Ryan,J. Sagerer,A. Sanzgiri,P. Sarin,P. Sawicki,J. Scaduto,H. Seals,I. Sedykh,J. Shea,J. Sinacore,W. Skulski,C. E. Smith,M. A. Stankiewicz,S. G. Steadman,Peter Steinberg,George Stephans,Marek Stodulski,Z. Stopa,A. Straczek,M. Strek,A. Sukhanov,K. Surowiecka,A. Szostak,Jaw-Luen Tang,R. Teng,Marguerite Tonjes,Adam Trzupek,C. Vale,G. Van Nieuwenhuizen,S. S. Vaurynovich,R. Verdier,Gabor Istvan Veres,B.F. Wadsworth,P. Walters,Edward Allen Wenger,D. Willhelm,F.L.H. Wolfs,Barbara Wosiek,Krzysztof Woźniak,A. H. Wuosmaa,S. M. Wyngaardt,Bolek Wyslouch,K. Zalewski,Jian Zhang,P. Żychowski +139 more
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Design and performance of the SLD vertex detector: a 307 Mpixel tracking system
K. Abe,A. Arodzero,C. Baltay,J. E. Brau,Martin Breidenbach,P. N. Burrows,A. Chou,G. Crawford,C.J.S. Damerell,P.J. Dervan,D. N. Dong,W. T. Emmet,R.L. English,E. Etzion,M. Foss,R. Frey,Gunther Haller,K. Hasuko,S. S. Hertzbach,J. Hoeflich,M. E. Huffer,D. J. Jackson,J. A. Jaros,J. Kelsey,I. Lee,V. Lia,A.L. Lintern,Minghui Liu,S. Manly,H. Masuda,A. K. McKemey,T. B. Moore,A. Nichols,Tadashi Nagamine,N. Oishi,L.S. Osborne,J. J. Russell,D. Ross,V. V. Serbo,N. B. Sinev,J. Sinnott,K Skarpaas Viii,M. B. Smy,J. A. Snyder,M. G. Strauss,Su Dong,F. Suekane,F. E. Taylor,A. I. Trandafir,T. L. Usher,R. Verdier,Stephen Watts,E. R. Weiss,J. Yashima,H. Yuta,G. H. Zapalac +55 more
TL;DR: In this paper, the SLAC Linear Collider (SLC) upgraded vertex detector is described, which consists of 96 two-dimensional charge-coupled devices (CCDs) with a total of 307 Mpixel.
Performance of the new vertex detector at SLD
N.B. Sinev,J. E. Brau,P. Dervan,E. Etzion,S. Watts,M. B. Smy,S. S. Hertzbach,M. G. Strauss,A. I. Trandafir,P. N. Burrows,D. N. Dong,J. Kelsy,Henry W. Kendall,I. Lee,V. Lia,L.S. Osborne,D. Ross,F. E. Taylor,R. Verdier,C. Damerell,R. English,D. Jackson,L. Lintern,L. Lintern,N. Ohishi,Martin Breidenbach,A. Chou,G. Crawford,M. Foss,Gunther Haller,J. Hoeflich,M. Huffer,J. Jaros,H. Masuda,J. J. Russell,Viii K. Skarpaas,S. Dong,T. Usher,K. Abe,K. Hasuko,T. Nagamine,F. Suekane,J. Yashima,H. Yuta,A. Arodzero,R. Frey,J. Huber,E. R. Weiss,V. V. Serbo,G. H. Zapalac,C. Baltay,W. T. Emmet,Minghui Liu,S. Manly,T. B. Moore,J. Sinnott,J. A. Snyder +56 more
TL;DR: In this article, the SLD detector VXD3 is presented, which is an upgrade of the original vertex detector of SLD (VXD2) made possible by advances in the technology of CCD detectors.
Initial impact parameter resolution of the new SLD vertex detector
N. B. Sinev,J. E. Brau,Koji Abe,A. Arodzero,C. Baltay,Martin Breidenbach,P. N. Burrows,A. Chou,G. Crawford,C.J.S. Damerell,P.J. Dervan,D. N. Dong,W. T. Emmet,R.L. English,E. Etzion,R. Frey,M. Foss,Gunther Haller,K. Hasuko,S.S Hertzbach,J. Hoeflich,J. Huber,M. E. Huffer,D. J. Jackson,J. A. Jaros,J. Kelsey,I. Lee,V. Lia,A.L. Lintern,Minghui Liu,S. Manly,H. Masuda,A. K. McKemey,T. B. Moore,A. Nichols,Tadashi Nagamine,N. Oishi,L.S. Osborne,J. J. Russell,D. Ross,V. V. Serbo,J. Sinnott,K Skarpaas Viii,M. B. Smy,J. A. Snyder,M.G Strauss,Su Dong,F. Suekane,F. E. Taylor,A. I. Trandafir,T. L. Usher,R. Verdier,Stephen Watts,E. R. Weiss,J. Yashima,H. Yuta,G. H. Zapalac +56 more
TL;DR: In this article, the SLD collaboration completed the construction of, and began the operation of, a new vertex detector (VXD3), based on 96 CCDs each of 13 cm 2 area.
3
The PHOBOS detector at RHIC
B. B. Back,M. D. Baker,D. S. Barton,S. Basilev,R. Baum,Russell Richard Betts,A. Bialas,R. Bindel,W. Bogucki,A. Budzanowski,Wit Busza,A. S. Carroll,M. Ceglia,Yuan-Hann Chang,A. E. Chen,T. Coghen,C Connor,W. Czyz,Bogdan Dabrowski,M. P. Decowski,M. Despet,P. Fita,J. Fitch,M. Friedl,K. Gałuszka,R. Ganz,E. Garcia,N. George,Jan Godlewski,C. Gomes,E. Griesmayer,K. Gulbrandsen,S. Gushue,J. Halik,C. Halliwell,P. Haridas,A. B. Hayes,G. A. Heintzelman,Conor Henderson,R. S. Hollis,R. Holynski,David Jonathan Hofman,Burt Holzman,E. Johnson,J. L. Kane,J. Katzy,W. Kita,J. Kotula,H.W. Kraner,W. Kucewicz,P. Kulinich,C. Law,M. Lemler,J. Ligocki,Willis Lin,S. Manly,D. McLeod,J. Michałowski,Alice Mignerey,Johannes Mülmenstädt,M. Neal,Rachid Nouicer,Andrzej Olszewski,R. Pak,Inkyu Park,M. Patel,Heinz Pernegger,M. Plesko,C. Reed,L. P. Remsberg,M. Reuter,Christof Roland,Gunther Roland,D. Ross,L.J. Rosenberg,John P. Ryan,A. Sanzgiri,Pankaj Sarin,P. Sawicki,J. Scaduto,J. Shea,J. Sinacore,W. Skulski,S. G. Steadman,G. S. F. Stephans,Peter Steinberg,A. Straczek,Marek Stodulski,M. Strȩk,Z. Stopa,A. Sukhanov,K. Surowiecka,Jaw-Luen Tang,R. Teng,Adam Trzupek,C. Vale,G. Van Nieuwenhuizen,R. Verdier,B.F. Wadsworth,F.L.H. Wolfs,Barbara Wosiek,Krzysztof Woźniak,A. H. Wuosmaa,Boleslaw Wyslouch,K. Zalewski,P. Żychowski +105 more
TL;DR: The PHOBOS experiment as discussed by the authors is capable of detecting charged particles over the full solid angle using a multiplicity detector and measuring identified charged particles near mid-rapidity in two spectrometer arms with opposite magnetic fields.