%0 Journal Article
%@ 0031-9007
%A Abazov, VM
%A Abbott, B
%A Abdesselam, A
%A Abolins, M
%A Abramov, V
%A Acharya, BS
%A Adams, DL
%A Adams, M
%A Ahmed, SN
%A Alexeev, GD
%A Alton, A
%A Alves, GA
%A Anderson, EW
%A Arnoud, Y
%A Avila, C
%A Babintsev, VV
%A Babukhadia, L
%A Bacon, TC
%A Baden, A
%A Baffioni, S
%A Baldin, B
%A Balm, PW
%A Banerjee, S
%A Barberis, E
%A Baringer, P
%A Barreto, J
%A Bartlett, JF
%A Bassler, U
%A Bauer, D
%A Bean, A
%A Beaudette, F
%A Begel, M
%A Belyaev, A
%A Beri, SB
%A Bernardi, G
%A Bertram, I
%A Besson, A
%A Beuselinck, R
%A Bezzubov, VA
%A Bhat, PC
%A Bhatnagar, V
%A Bhattacharjee, M
%A Blazey, G
%A Blekman, F
%A Blessing, S
%A Boehnlein, A
%A Bojko, NI
%A Bolton, TA
%A Borcherding, F
%A Bos, K
%A Bose, T
%A Brandt, A
%A Breedon, R
%A Briskin, G
%A Brock, R
%A Brooijmans, G
%A Bross, A
%A Buchholz, D
%A Buehler, M
%A Buescher, V
%A Burtovoi, VS
%A Butler, JM
%A Canelli, F
%A Carvalho, W
%A Casey, D
%A Casilum, Z
%A Castilla-Valdez, H
%A Chakraborty, D
%A Chan, KM
%A Chekulaev, SV
%A Cho, DK
%A Choi, S
%A Chopra, S
%A Christenson, JH
%A Claes, D
%A Clark, AR
%A Coney, L
%A Connolly, B
%A Cooper, WE
%A Coppage, D
%A Crepe-Renaudin, S
%A Cummings, MAC
%A Cutts, D
%A da Motta, H
%A Davis, GA
%A De, K
%A de Jong, SJ
%A Demarteau, M
%A Demina, R
%A Demine, P
%A Denisov, D
%A Denisov, SP
%A Desai, S
%A Diehl, HT
%A Diesburg, M
%A Doulas, S
%A Dudko, LV
%A Duensing, S
%A Duflot, L
%A Dugad, SR
%A Duperrin, A
%A Dyshkant, A
%A Edmunds, D
%A Ellison, J
%A Eltzroth, JT
%A Elvira, VD
%A Engelmann, R
%A Eno, S
%A Eppley, G
%A Ermolov, P
%A Eroshin, OV
%A Estrada, J
%A Evans, H
%A Evdokimov, VN
%A Fein, D
%A Ferbel, T
%A Filthaut, F
%A Fisk, HE
%A Fisyak, Y
%A Fleuret, F
%A Fortner, M
%A Fox, H
%A Fu, S
%A Fuess, S
%A Gallas, E
%A Galyaev, AN
%A Gao, M
%A Gavrilov, V
%A Genik, RJ
%A Genser, K
%A Gerber, CE
%A Gershtein, Y
%A Ginther, G
%A Gomez, B
%A Goncharov, PI
%A Gordon, H
%A Goss, LT
%A Gounder, K
%A Goussiou, A
%A Graf, N
%A Grannis, PD
%A Green, JA
%A Greenlee, H
%A Greenwood, ZD
%A Grinstein, S
%A Groer, L
%A Grunendahl, S
%A Gurzhiev, SN
%A Gutierrez, G
%A Gutierrez, P
%A Hadley, NJ
%A Haggerty, H
%A Hagopian, S
%A Hagopian, V
%A Hall, RE
%A Han, C
%A Hansen, S
%A Hauptman, JM
%A Hebert, C
%A Hedin, D
%A Heinmiller, JM
%A Heinson, AP
%A Heintz, U
%A Hildreth, MD
%A Hirosky, R
%A Hobbs, JD
%A Hoeneisen, B
%A Huang, J
%A Huang, Y
%A Iashvili, I
%A Illingworth, R
%A Ito, AS
%A Jaffre, M
%A Jain, S
%A Jesik, R
%A Johns, K
%A Johnson, M
%A Jonckheere, A
%A Jostlein, H
%A Juste, A
%A Kahl, W
%A Kahn, S
%A Kajfasz, E
%A Kalinin, AM
%A Karmanov, D
%A Karmgard, D
%A Kehoe, R
%A Khanov, A
%A Kharchilava, A
%A Klima, B
%A Knuteson, B
%A Ko, W
%A Kohli, JM
%A Kostritskiy, AV
%A Kotcher, J
%A Kothari, B
%A Kozelov, AV
%A Kozlovsky, EA
%A Krane, J
%A Krishnaswamy, MR
%A Krivkova, P
%A Krzywdzinski, S
%A Kubantsev, M
%A Kuleshov, S
%A Kulik, Y
%A Kunori, S
%A Kupco, A
%A Kuznetsov, VE
%A Landsberg, G
%A Lee, WM
%A Leflat, A
%A Leggett, C
%A Lehner, F
%A Leonidopoulos, C
%A Li, J
%A Li, QZ
%A Lima, JGR
%A Lincoln, D
%A Linn, SL
%A Linnemann, J
%A Lipton, R
%A Lucotte, A
%A Lueking, L
%A Lundstedt, C
%A Luo, C
%A Maciel, AKA
%A Madaras, RJ
%A Malyshev, VL
%A Manankov, V
%A Mao, HS
%A Marshall, T
%A Martin, MI
%A Mayorov, AA
%A McCarthy, R
%A McMahon, T
%A Melanson, HL
%A Merkin, M
%A Merritt, KW
%A Miao, C
%A Miettinen, H
%A Mihalcea, D
%A Mishra, CS
%A Mokhov, N
%A Mondal, NK
%A Montgomery, HE
%A Moore, RW
%A Mutaf, YD
%A Nagy, E
%A Nang, F
%A Narain, M
%A Narasimham, VS
%A Naumann, NA
%A Neal, HA
%A Negret, JP
%A Nomerotski, A
%A Nunnemann, T
%A O'Neil, D
%A Oguri, V
%A Olivier, B
%A Oshima, N
%A Padley, P
%A Papageorgiou, K
%A Parashar, N
%A Partridge, R
%A Parua, N
%A Patwa, A
%A Peters, O
%A Petroff, P
%A Piegaia, R
%A Pope, BG
%A Popkov, E
%A Prosper, HB
%A Protopopescu, S
%A Przybycien, MB
%A Qian, J
%A Raja, R
%A Rajagopalan, S
%A Rapidis, PA
%A Reay, NW
%A Reucroft, S
%A Ridel, M
%A Rijssenbeek, M
%A Rizatdinova, F
%A Rockwell, T
%A Royon, C
%A Rubinov, P
%A Ruchti, R
%A Rutherfoord, J
%A Sabirov, BM
%A Sajot, G
%A Santoro, A
%A Sawyer, L
%A Schamberger, RD
%A Schellman, H
%A Schwartzman, A
%A Shabalina, E
%A Shivpuri, RK
%A Shpakov, D
%A Shupe, M
%A Sidwell, RA
%A Simak, V
%A Sirotenko, V
%A Slattery, P
%A Smith, RP
%A Snow, GR
%A Snow, J
%A Snyder, S
%A Solomon, J
%A Song, Y
%A Sorin, V
%A Sosebee, M
%A Sotnikova, N
%A Soustruznik, K
%A Souza, M
%A Stanton, NR
%A Steinbruck, G
%A Stoker, D
%A Stolin, V
%A Stone, A
%A Stoyanova, DA
%A Strang, MA
%A Strauss, M
%A Strovink, M
%A Stutte, L
%A Sznajder, A
%A Talby, M
%A Taylor, W
%A Tentindo-Repond, S
%A Tripathi, SM
%A Trippe, TG
%A Turcot, AS
%A Tuts, PM
%A Kooten, RV
%A Vaniev, V
%A Varelas, N
%A Vertogradov, LS
%A Villeneuve-Seguier, F
%A Volkov, AA
%A Vorobiev, AP
%A Wahl, HD
%A Wang, ZM
%A Warchol, J
%A Watts, G
%A Wayne, M
%A Weerts, H
%A White, A
%A White, JT
%A Whiteson, D
%A Wijngaarden, DA
%A Willis, S
%A Wimpenny, SJ
%A Womersley, J
%A Wood, DR
%A Xu, Q
%A Yamada, R
%A Yamin, P
%A Yasuda, T
%A Yatsunenko, YA
%A Yip, K
%A Youssef, S
%A Yu, J
%A Zanabria, M
%A Zhang, X
%A Zheng, H
%A Zhou, B
%A Zhou, Z
%A Zielinski, M
%A Zieminska, D
%A Zieminski, A
%A Zutshi, V
%A Zverev, EG
%A Zylberstejn, A
%A DO Collaboration, .
%D 2003
%F discovery:1373926
%I AMERICAN PHYSICAL SOC
%J PHYS REV LETT
%K PRODUCTION CROSS-SECTION, LARGE COMPACT DIMENSIONS, ROOT-S=1.8 TEV, P(P)OVER-BAR COLLISIONS, PARTON DISTRIBUTIONS, TRANSVERSE-MOMENTUM, CONSTRAINTS, MILLIMETER, SCATTERING
%N 25
%P -
%T Search for large extra dimensions in the Monojet+E-T channel with the DO detector
%U https://discovery.ucl.ac.uk/id/eprint/1373926/
%V 90
%X We present a search for large extra dimensions (ED) in p (p) over bar collisions at a center-of-mass energy of 1.8 TeV using data collected by the DO detector at the Fermilab Tevatron in 1994-1996. Data corresponding to 78.8+/-3.9 pb(-1) are examined for events with large missing transverse energy, one high-p(T) jet, and no isolated muons. There is no excess observed beyond expectation from the standard model, and we place lower limits on the fundamental Planck scale of 1.0 and 0.6 TeV for 2 and 7 ED, respectively.
%Z © 2003 The American Physical Society