在质心能量平方根√s = 1.8 TeV的质子-质子碰撞中,关于额外维度的限制以及在单举光子和丢失能量特征中产生新粒子的情况 。
Limits on extra dimensions and new particle production in the exclusive photon and missing energy signature in pp collisions at square root [s]=1.8 TeV.
作者信息
Acosta D, Affolder T, Akimoto H, Albrow M G, Ambrose D, Amidei D, Anikeev K, Antos J, Apollinari G, Arisawa T, Artikov A, Asakawa T, Ashmanskas W, Azfar F, Azzi-Bacchetta P, Bacchetta N, Bachacou H, Badgett W, Bailey S, de Barbaro P, Barbaro-Galtieri A, Barnes V E, Barnett B A, Baroiant S, Barone M, Bauer G, Bedeschi F, Behari S, Belforte S, Bell W H, Bellettini G, Bellinger J, Benjamin D, Bensinger J, Beretvas A, Berryhill J, Bhatti A, Binkley M, Bisello D, Bishai M, Blair R E, Blocker C, Bloom K, Blumenfeld B, Blusk S R, Bocci A, Bodek A, Bolla G, Bonushkin Y, Bortoletto D, Boudreau J, Brandl A, Bromberg C, Brozovic M, Brubaker E, Bruner N, Budagov J, Budd H S, Burkett K, Busetto G, Byrum K L, Cabrera S, Calafiura P, Campbell M, Carithers W, Carlson J, Carlsmith D, Caskey W, Castro A, Cauz D, Cerri A, Chan A W, Chang P S, Chang P T, Chapman J, Chen C, Chen Y C, Cheng M-T, Chertok M, Chiarelli G, Chirikov-Zorin I, Chlachidze G, Chlebana F, Christofek L, Chu M L, Chung J Y, Chung W-H, Chung Y S, Ciobanu C I, Clark A G, Coca M, Colijn A P, Connolly A, Convery M, Conway J, Cordelli M, Cranshaw J, Culbertson R, Dagenhart D, D'Auria S, DeJongh F, Dell'Agnello S, Dell'Orso M, Demers S, Demortier L, Deninno M, Derwent P F, Devlin T, Dittmann J R, Dominguez A, Donati S, D'Onofrio M, Dorigo T, Dunietz I, Eddy N, Einsweiler K, Engels E, Erbacher R, Errede D, Errede S, Fan Q, Fang H-C, Feild R G, Fernandez J P, Ferretti C, Field R D, Fiori I, Flaugher B, Flores-Castillo L R, Foster G W, Franklin M, Freeman J, Friedman J, Frisch H J, Fukui Y, Furic I, Galeotti S, Gallas A, Gallinaro M, Gao T, Garcia-Sciveres M, Garfinkel A F, Gatti P, Gay C, Gerdes D W, Gerstein E, Giannetti P, Giolo K, Giordani M, Giromini P, Glagolev V, Glenzinski D, Gold M, Goldstein J, Gomez G, Gorelov I, Goshaw A T, Gotra Y, Goulianos K, Green C, Grim G, Grosso-Pilcher C, Guenther M, Guillian G, Guimaraes da Costa J, Haas R M, Haber C, Hahn S R, Hall C, Handa T, Handler R, Happacher F, Hara K, Hardman A D, Harris R M, Hartmann F, Hatakeyama K, Hauser J, Heinrich J, Heiss A, Herndon M, Hill C, Hocker A, Hoffman K D, Hollebeek R, Holloway L, Huffman B T, Hughes R, Huston J, Huth J, Ikeda H, Incandela J, Introzzi G, Ivanov A, Iwai J, Iwata Y, James E, Jones M, Joshi U, Kambara H, Kamon T, Kaneko T, Karagoz Unel M, Karr K, Kartal S, Kasha H, Kato Y, Keaffaber T A, Kelley K, Kelly M, Kennedy R D, Kephart R, Khazins D, Kikuchi T, Kilminster B, Kim B J, Kim D H, Kim H S, Kim M J, Kim S B, Kim S H, Kim Y K, Kirby M, Kirk M, Kirsch L, Klimenko S, Koehn P, Kondo K, Konigsberg J, Korn A, Korytov A, Kovacs E, Kroll J, Kruse M, Krutelyov V, Kuhlmann S E, Kurino K, Kuwabara T, Laasanen A T, Lai N, Lami S, Lammel S, Lancaster J, Lancaster M, Lander R, Lath A, Latino G, LeCompte T, Le Y, Lee K, Lee S W, Leone S, Lewis J D, Lindgren M, Liss T M, Liu J B, Liu T, Liu Y C, Litvintsev D O, Lobban O, Lockyer N S, Loken J, Loreti M, Lucchesi D, Lukens P, Lusin S, Lyons L, Lys J, Madrak R, Maeshima K, Maksimovic P, Malferrari L, Mangano M, Manca G, Mariotti M, Martignon G, Martin M, Martin A, Martin V, Matthews J A J, Mazzanti P, McFarland K S, McIntyre P, Menguzzato M, Menzione A, Merkel P, Mesropian C, Meyer A, Miao T, Miller R, Miller J S, Minato H, Miscetti S, Mishina M, Mitselmakher G, Miyazaki Y, Moggi N, Moore E, Moore R, Morita Y, Moulik T, Mulhearn M, Mukherjee A, Muller T, Munar A, Murat P, Murgia S, Nachtman J, Nagaslaev V, Nahn S, Nakada H, Nakano I, Napora R, Nelson C, Nelson T, Neu C, Neuberger D, Newman-Holmes C, Ngan C-Y P, Nigmanov T, Niu H, Nodulman L, Nomerotski A, Oh S H, Oh Y D, Ohmoto T, Ohsugi T, Oishi R, Okusawa T, Olsen J, Onyisi P U E, Orejudos W, Pagliarone C, Palmonari F, Paoletti R, Papadimitriou V, Partos D, Patrick J, Pauletta G, Paulini M, Pauly T, Paus C, Pellett D, Pescara L, Phillips T J, Piacentino G, Piedra J, Pitts K T, Pompos A, Pondrom L, Pope G, Pratt T, Prokoshin F, Proudfoot J, Ptohos F, Pukhov O, Punzi G, Rademacker J, Rakitine A, Ratnikov F, Reher D, Reichold A, Renton P, Ribon A, Riegler W, Rimondi F, Ristori L, Riveline M, Robertson W J, Rodrigo T, Rolli S, Rosenson L, Roser R, Rossin R, Rott C, Roy A, Ruiz A, Safonov A, St Denis R, Sakumoto W K, Saltzberg D, Sanchez C, Sansoni A, Santi L, Sato H, Savard P, Savoy-Navarro A, Schlabach P, Schmidt E E, Schmidt M P, Schmitt M, Scodellaro L, Scott A, Scribano A, Sedov A, Seidel S, Seiya Y, Semenov A, Semeria F, Shah T, Shapiro M D, Shepard P F, Shibayama T, Shimojima M, Shochet M, Sidoti A, Siegrist J, Sill A, Sinervo P, Singh P, Slaughter A J, Sliwa K, Snider F D, Solodsky A, Spalding J, Speer T, Spezziga M, Sphicas P, Spinella F, Spiropulu M, Spiegel L, Steele J, Stefanini A, Strologas J, Strumia F, Stuart D, Sumorok K, Suzuki T, Takano T, Takashima R, Takikawa K, Tamburello P, Tanaka M, Tannenbaum B, Tecchio M, Tesarek R J, Teng P K, Terashi K, Tether S, Thompson A S, Thomson E, Thurman-Keup R, Tipton P, Tkaczyk S, Toback D, Tollefson K, Tollestrup A, Tonelli D, Tonnesmann M, Toyoda H, Trischuk W, de Troconiz J F, Tseng J, Tsybychev D, Turini N, Ukegawa F, Vaiciulis T, Valls J, Vataga E, Vejcik S, Velev G, Veramendi G, Vidal R, Vila I, Vilar R, Volobouev I, von der Mey M, Vucinic D, Wagner R G, Wagner R L, Wagner W, Wallace N B, Wan Z, Wang C, Wang M J, Wang S M, Ward B, Waschke S, Watanabe T, Waters D, Watts T, Weber M, Wenzel H, Wester W C, Wicklund A B, Wicklund E, Wilkes T, Williams H H, Wilson P, Winer B L, Winn D, Wolbers S, Wolinski D, Wolinski J, Wolinski S, Worm S, Wu X, Wyss J, Yang U K, Yao W, Yeh G P, Yeh P, Yi K, Yoh J, Yosef C, Yoshida T, Yu I, Yu S, Yu Z, Yun J C, Zanetti A, Zetti F, Zucchelli S
机构信息
University of Florida, Gainesville, Florida 32611, USA.
出版信息
Phys Rev Lett. 2002 Dec 31;89(28 Pt 1):281801. doi: 10.1103/PhysRevLett.89.281801. Epub 2002 Dec 27.
The exclusive gammaE(T) signal has a small standard model cross section and is thus a channel sensitive to new physics. This signature is predicted by models with a superlight gravitino or with large extra spatial dimensions. We search for such signals at the Collider Detector at Fermilab, using 87 pb(-1) of data at square root [s]=1.8 TeV, and extract 95% C.L. limits on these processes. A limit of 221 GeV is set on the scale |F|(1/2) in supersymmetric models. For 4, 6, and 8 extra dimensions, model-dependent limits on the fundamental mass scale M(D) of 0.55, 0.58, and 0.60 TeV, respectively, are found. We also specify a "pseudo-model-independent" method of comparing the results to theoretical predictions.
专属的γE(T)信号具有较小的标准模型截面,因此是一个对新物理敏感的通道。这种信号特征由具有超轻引力子或大额外空间维度的模型所预测。我们在费米实验室的对撞机探测器上进行此类信号的搜寻,使用了质心能量√[s]=1.8 TeV下87 pb⁻¹的数据,并提取了这些过程的95%置信水平限制。在超对称模型中,对尺度|F|^(1/2)设定了221 GeV的限制。对于4、6和8个额外维度,分别发现了对基本质量尺度M(D)的依赖于模型的限制,分别为0.55、0.58和0.60 TeV。我们还指定了一种将结果与理论预测进行比较的“伪模型无关”方法。
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