View : 44 Download: 5

Direct photon production in d+Au collisions at √sNN=200 GeV

Title
Direct photon production in d+Au collisions at √sNN=200 GeV
Authors
Adare A.Adler S.S.Afanasiev S.Aidala C.Ajitanand N.N.Akiba Y.Al-Bataineh H.Al-Jamel A.Alexander J.Angerami A.Aoki K.Apadula N.Aphecetche L.Aramaki Y.Armendariz R.Aronson S.H.Asai J.Atomssa E.T.Averbeck R.Awes T.C.Azmoun B.Babintsev V.Bai M.Baksay G.Baksay L.Baldisseri A.Barish K.N.Barnes P.D.Bassalleck B.Basye A.T.Bathe S.Batsouli S.Baublis V.Bauer F.Baumann C.Bazilevsky A.Belikov S.Belmont R.Bennett R.Berdnikov A.Berdnikov Y.Bhom J.H.Bickley A.A.Bjorndal M.T.Blau D.S.Boissevain J.G.Bok J.S.Borel H.Boyle K.Brooks M.L.Brown D.S.Bruner N.Bucher D.Buesching H.Bumazhnov V.Bunce G.Burward-Hoy J.M.Butsyk S.Camacho C.M.Camard X.Campbell S.Caringi A.Chand P.Chang B.S.Chang W.C.Charvet J.-L.Chen C.-H.Chernichenko S.Chi C.Y.Chiba J.Chiu M.Choi I.J.Choi J.B.Choudhury R.K.Christiansen P.Chujo T.Chung P.Churyn A.Chvala O.Cianciolo V.Citron Z.Cobigo Y.Cole B.A.Comets M.P.Conesa Del Valle Z.Connors M.Constantin P.Csanad M.Csorgo T.Cussonneau J.P.Dahms T.Dairaku S.Danchev I.Das K.Datta A.David G.Dayananda M.K.Deak F.Delagrange H.Denisov A.D'Enterria D.Deshpande A.Desmond E.J.Devismes A.Dharmawardane K.V.Dietzsch O.Dion A.Donadelli M.Drachenberg J.L.Drapier O.Drees A.Drees K.A.Dubey A.K.Durham J.M.Durum A.Dutta D.Dzhordzhadze V.D'Orazio L.Edwards S.Efremenko Y.V.Ellinghaus F.Engelmore T.Enokizono A.En'Yo H.Espagnon B.Esumi S.Eyser K.O.Fadem B.Fields D.E.Finck C.Finger M.Fleuret F.Fokin S.L.Fox B.D.Fraenkel Z.Frantz J.E.Franz A.Frawley A.D.Fujiwara K.Fukao Y.Fung S.-Y.Fusayasu T.Gadrat S.Garishvili I.Germain M.Glenn A.Gong H.Gonin M.Gosset J.Goto Y.Granier De Cassagnac R.Grau N.Greene S.V.Grim G.Grosse Perdekamp M.Gunji T.Gustafsson H.-A.Hachiya T.Hadj Henni A.Haggerty J.S.Hahn K.I.Hamagaki H.Hamblen J.Han R.Hanks J.Hansen A.G.Hartouni E.P.Haruna K.Harvey M.Haslum E.Hasuko K.Hayano R.He X.Heffner M.Hemmick T.K.Hester T.Heuser J.M.Hidas P.Hiejima H.Hill J.C.Hobbs R.Hohlmann M.Holzmann W.Homma K.Hong B.Hoover A.Horaguchi T.Hornback D.Huang S.Ichihara T.Ichimiya R.Iinuma H.Ikeda Y.Ikonnikov V.V.Imai K.Imrek J.Inaba M.Inuzuka M.Isenhower D.Isenhower L.Ishihara M.Isobe T.Issah M.Isupov A.Ivanischev D.Iwanaga Y.Jacak B.V.Jia J.Jiang X.Jin J.Jinnouchi O.Johnson B.M.Johnson S.C.Jones T.Joo K.S.Jouan D.Jumper D.S.Kajihara F.Kametani S.Kamihara N.Kamin J.Kaneta M.Kang J.H.Kapustinsky J.Karatsu K.Kasai M.Katou K.Kawabata T.Kawall D.Kawashima M.Kazantsev A.V.Kelly S.Kempel T.Khachaturov B.Khanzadeev A.Kijima K.M.Kikuchi J.Kim A.Kim B.I.Kim D.H.Kim D.J.Kim E.Kim E.-J.Kim E.J.Kim G.-B.Kim H.J.Kim S.H.Kim Y.-J.Kinney E.Kiriluk K.Kiss A.Kistenev E.Kiyomichi A.Klay J.Klein-Boesing C.Kleinjan D.Kobayashi H.Kochenda L.Kochetkov V.Kohara R.Komkov B.Konno M.Koster J.Kotchetkov D.Kozlov A.Kral A.Kravitz A.Kroon P.J.Kuberg C.H.Kunde G.J.Kurita K.Kurosawa M.Kweon M.J.Kwon Y.Kyle G.S.Lacey R.Lai Y.S.Lajoie J.G.Layton D.Lebedev A.Le Bornec Y.Leckey S.Lee D.M.Lee J.Lee K.B.Lee K.S.Lee T.Leitch M.J.Leite M.A.L.Lenzi B.Li X.Li X.H.Lichtenwalner P.Liebing P.Lim H.Linden Levy L.A.Liska T.Litvinenko A.Liu H.Liu M.X.Love B.Lynch D.Maguire C.F.Makdisi Y.I.Malakhov A.Malik M.D.Manko V.I.Mannel E.Mao Y.Martinez G.Masek L.Masui H.Matathias F.Matsumoto T.McCain M.C.McCumber M.McGaughey P.L.McGlinchey D.Means N.Meredith B.Miake Y.Mibe T.Mignerey A.C.Mikes P.Miki K.Miller T.E.Milov A.Mioduszewski S.Mishra G.C.Mishra M.Mitchell J.T.Mohanty A.K.Moon H.J.Morino Y.Morreale A.Morrison D.P.Moss J.M.Moukhanova T.V.Mukhopadhyay D.Muniruzzaman M.Murakami T.Murata J.Nagamiya S.Nagle J.L.Naglis M.Nagy M.I.Nakagawa I.Nakamiya Y.Nakamura K.R.Nakamura T.Nakano K.Nam S.Newby J.Nguyen M.Nihashi M.Niida T.Nouicer R.Nyanin A.S.Nystrand J.Oakley C.O'Brien E.Oda S.X.Ogilvie C.A.Ohnishi H.Ojha I.D.Oka M.Okada K.Onuki Y.Oskarsson A.Otterlund I.Ouchida M.Oyama K.Ozawa K.Pak R.Pal D.Palounek A.P.T.Pantuev V.Papavassiliou V.Park I.H.Park J.Park S.K.Park W.J.Pate S.F.Pei H.Penev V.Peng J.-C.Pereira H.Peresedov V.Peressounko D.Yu.Petti R.Pierson A.Pinkenburg C.Pisani R.P.Proissl M.Purschke M.L.Purwar A.K.Qu H.Qualls J.M.Rak J.Rakotozafindrabe A.Ravinovich I.Read K.F.Rembeczki S.Reuter M.Reygers K.Riabov V.Riabov Y.Richardson E.Roach D.Roche G.Rolnick S.D.Romana A.Rosati M.Rosen C.A.Rosendahl S.S.E.Rosnet P.Rukoyatkin P.Ruzicka P.Rykov V.L.Ryu S.S.Sahlmueller B.Saito N.Sakaguchi T.Sakai S.Sakashita K.Samsonov V.Sanfratello L.Sano S.Santo R.Sato H.D.Sato S.Sato T.Sawada S.Schutz Y.Sedgwick K.Seele J.Seidl R.Semenov A.Yu.Semenov V.Seto R.Sharma D.Shea T.K.Shein I.Shibata T.-A.Shigaki K.Shimomura M.Shoji K.Shukla P.Sickles A.Silva C.L.Silvermyr D.Silvestre C.Sim K.S.Singh B.K.Singh C.P.Singh V.Slunecka M.Soldatov A.Soltz R.A.Sondheim W.E.Sorensen S.P.Sourikova I.V.Staley F.Stankus P.W.Stenlund E.Stepanov M.Ster A.Stoll S.P.Sugitate T.Suire C.Sukhanov A.Sullivan J.P.Sziklai J.Takagi S.Takagui E.M.Taketani A.Tanabe R.Tanaka K.H.Tanaka Y.Taneja S.Tanida K.Tannenbaum M.J.Tarafdar S.Taranenko A.Tarjan P.Themann H.Thomas D.Thomas T.L.Togawa M.Toia A.Tojo J.Tomasek L.Tomita Y.Torii H.Towell R.S.Tram V.-N.Tserruya I.Tsuchimoto Y.Tydesjo H.Tyurin N.Uam T.J.Vale C.Valle H.Van Hecke H.W.Vazquez-Zambrano E.Veicht A.Velkovska J.Velkovsky M.Vertesi R.Veszpremi V.Vinogradov A.A.Virius M.Volkov M.A.Vrba V.Vznuzdaev E.Wang X.R.Watanabe D.Watanabe K.Watanabe Y.Wei F.Wei R.Wessels J.White S.N.Willis N.Winter D.Wohn F.K.Woody C.L.Wright R.M.Wysocki M.Xie W.Yamaguchi Y.L.Yamaura K.Yang R.Yanovich A.Ying J.Yokkaichi S.You Z.Young G.R.Younus I.Yushmanov I.E.Zajc W.A.Zaudtke O.Zhang C.Zhou S.Zimanyi J.Zolin L.Zong X.
Ewha Authors
한인식박일흥남신우
SCOPUS Author ID
한인식scopus
Issue Date
2013
Journal Title
Physical Review C - Nuclear Physics
ISSN
0556-2813JCR Link
Citation
vol. 87, no. 5
Indexed
SCI; SCIE; SCOPUS WOS scopus
Abstract
Direct photons have been measured in √sNN=200 GeV d+Au collisions at midrapidity. A wide pT range is covered by measurements of nearly real virtual photons (1<pT<6 GeV/c) and real photons (5<pT<16 GeV/c). The invariant yield of the direct photons in d+Au collisions over the scaled p+p cross section is consistent with unity. Theoretical calculations assuming standard cold-nuclear-matter effects describe the data well for the entire pT range. This indicates that the large enhancement of direct photons observed in Au+Au collisions for 1.0<p T<2.5 GeV/c is attributable to a source other than the initial-state nuclear effects. © 2013 American Physical Society.
DOI
10.1103/PhysRevC.87.054907
Appears in Collections:
사범대학 > 과학교육과 > Journal papers
Files in This Item:
001.pdf(322.16 kB)Download
Export
RIS (EndNote)
XLS (Excel)
XML


qrcode

Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.

BROWSE