000022838 001__ 22838
000022838 005__ 20140130014745.0
000022838 037__ $$9arXiv$$ahep-ex/9805018$$chep-ex
000022838 035__ $$9arXiv$$zoai:arXiv.org:hep-ex/9805018
000022838 035__ $$9DESY$$zD98-11329
000022838 035__ $$9CERNKEY$$z0279592
000022838 035__ $$9SPIRESTeX$$zBarberis:1998bq
000022838 100__ $$aBarberis, D.
000022838 245__ $$aA Study of the centrally produced phi phi system in p p interactions at 450-GeV/c
000022838 246__ $$9arXiv$$aA study of the centrally produced phiphi system in pp interactions at 450 GeV/c
000022838 269__ $$c1998-05
000022838 300__ $$a11
000022838 520__ $$9arXiv$$aThe reaction pp to pfps(K+K-K+K-) in which the K+K-K+K- system is centrally produced has been studied at 450 GeV/c. Phi phi production has been found to dominate this reaction and is compatible with being produced by double Pomeron exchange. An angular analysis of the phi phi system favours JPC = 2++ and its dPT dependence is similar to that observed for glueball candidates.
000022838 65017 $$2INSPIRE$$aExperiment-HEP
000022838 690C_ $$2INSPIRE$$aPublished
000022838 693__ $$eCERN-WA-102
000022838 695__ $$2INSPIRE$$ap p: inelastic scattering
000022838 695__ $$2INSPIRE$$aPhi(1020): pair production
000022838 695__ $$2INSPIRE$$aK: multiple production
000022838 695__ $$2INSPIRE$$aexchange: (2pomeron)
000022838 695__ $$2INSPIRE$$amass spectrum
000022838 695__ $$2INSPIRE$$aspectrum: x-dependence
000022838 695__ $$2INSPIRE$$amomentum transfer dependence
000022838 695__ $$2INSPIRE$$aglueball
000022838 695__ $$2INSPIRE$$aspin: parity
000022838 695__ $$2INSPIRE$$aOMEGA
000022838 695__ $$2INSPIRE$$aexperimental results
000022838 695__ $$2INSPIRE$$aCERN SPS
000022838 695__ $$2INSPIRE$$ap p --> 2p 2K+ 2K-
000022838 695__ $$2INSPIRE$$ap p --> 2Phi(1020)
000022838 695__ $$2INSPIRE$$ap p --> Phi(1020) K+ K-
000022838 695__ $$2INSPIRE$$a450 GeV/c
000022838 700__ $$aBeusch, W.
000022838 700__ $$aBinon, F.G.
000022838 700__ $$aBlick, A.M.
000022838 700__ $$aChlatchidze, G.
000022838 700__ $$aClose, F.E.
000022838 700__ $$aDanielsen, K.M.
000022838 700__ $$aDolgopolov, A.V.
000022838 700__ $$aDonskov, S.V.
000022838 700__ $$aEarl, B.C.
000022838 700__ $$aEvans, D.
000022838 700__ $$aFrench, B.R.
000022838 700__ $$aGoodwin, C.
000022838 700__ $$aHino, T.
000022838 700__ $$aInaba, S.
000022838 700__ $$aInyakin, A.V.
000022838 700__ $$aIshida, T.
000022838 700__ $$aJacholkowski, A.
000022838 700__ $$aJacobsen, T.
000022838 700__ $$aJones, G.T.
000022838 700__ $$aKhaustov, G.V.
000022838 700__ $$aKinashi, T.
000022838 700__ $$aKinson, J.B.
000022838 700__ $$aKirk, A.
000022838 700__ $$aKlempt, W.
000022838 700__ $$aKolosov, V.
000022838 700__ $$aKondashov, A.A.
000022838 700__ $$aLednev, A.A.
000022838 700__ $$aLenti, V.
000022838 700__ $$aMalyukov, S.
000022838 700__ $$aMartinengo, P.
000022838 700__ $$aMinashvili, I.
000022838 700__ $$aMyklebost, K.
000022838 700__ $$aNakagawa, T.
000022838 700__ $$aNorman, K.L.
000022838 700__ $$aOlsen, J.M.
000022838 700__ $$aPeigneux, J.P.
000022838 700__ $$aPolovnikov, S.A.
000022838 700__ $$aPolyakov, V.A.
000022838 700__ $$aRomanovsky, V.
000022838 700__ $$aRotscheidt, H.
000022838 700__ $$aRumyantsev, V.
000022838 700__ $$aRusakovich, N.
000022838 700__ $$aSamoylenko, V.D.
000022838 700__ $$aSemenov, A.
000022838 700__ $$aSene, M.
000022838 700__ $$aSene, R.
000022838 700__ $$aShagin, P.M.
000022838 700__ $$aShimizu, H.
000022838 700__ $$aSingovsky, A.V.
000022838 700__ $$aSobol, A.
000022838 700__ $$aSolovev, A.
000022838 700__ $$aStassinaki, M.
000022838 700__ $$aStroot, J.P.
000022838 700__ $$aSugonyaev, V.P.
000022838 700__ $$aTakamatsu, K.
000022838 700__ $$aTsuru, T.
000022838 700__ $$aVenables, M.
000022838 700__ $$aVillalobos Baillie, O.
000022838 700__ $$aVotruba, M.F.
000022838 700__ $$aYasu, Y.
000022838 710__ $$gWA102 Collaboration
000022838 773__ $$a10.1016/S0370-2693(98)00661-3$$c436-442$$pPhys.Lett.$$vB432$$y1998
000022838 8564_ $$uhttp://dx.doi.org/10.1016/S0370-2693(98)00661-3$$w10.1016/S0370-2693(98)00661-3$$yDOI
000022838 8564_ $$uhttp://pdglive.lbl.gov/REFERENCE_info1.brl?slacrpp=PHLTA,B432,436$$wPHLTA,B432,436$$yPDGLIV
000022838 8564_ $$uhttp://www.sciencedirect.com/science?_ob=GatewayURL&_origin=SPIRES&_method=citationSearch&_volkey=03702693%23432%23436%23&_version=1&md5=ccc02d2df9f130a616650191d6d9527a$$w03702693%23432%23436%23&_version=1&md5=ccc02d2df9f130a616650191d6d9527a$$ySCIDIR
000022838 8564_ $$uhttp://durpdg.dur.ac.uk/cgi-hepdata/hepreac/3755916$$w3755916$$yDURHAM
000022838 902__ $$aAnnecy, LAPP
000022838 902__ $$aAthens U.
000022838 902__ $$aBergen U.
000022838 902__ $$aBirmingham U.
000022838 902__ $$aCERN
000022838 902__ $$aSerpukhov, IHEP
000022838 902__ $$aBrussels U., IISN
000022838 902__ $$aDubna, JINR
000022838 902__ $$aKEK, Tsukuba
000022838 902__ $$aMiyazaki U.
000022838 902__ $$aOsaka U., Res. Ctr. Nucl. Phys.
000022838 902__ $$aOslo U.
000022838 902__ $$aTohoku U.
000022838 902__ $$aYamagata U.
000022838 909CO $$ooai:jdsweb.jinr.ru:22838$$pglobal
000022838 961__ $$x1998-05-19
000022838 961__ $$c2010-05-28
000022838 970__ $$aSPIRES-3755916
000022838 980__ $$aPublished
000022838 980__ $$aarXiv
000022838 980__ $$aCiteable
000022838 980__ $$aCORE
000022838 999C5 $$sPhys.Lett.,B397,339
000022838 999C5 $$rhep-ph/9701222$$sPhys.Lett.,B397,333
000022838 999C5 $$rhep-ph/9710450$$sPhys.Lett.,B419,387
000022838 999C5 $$rhep-ph/9712387$$sPhys.Lett.,B425,359
000022838 999C5 $$sPhys.Lett.,B201,568
000022838 999C5 $$sPhys.Lett.,B166,245
000022838 999C5 $$sPhys.Lett.,B221,221
000022838 999C5 $$sPhys.Rev.Lett.,20,686
000022838 999C5 $$sPhys.Rev.,D54,1
000022838 999C5 $$sZ.Phys.,C46,405
000022838 999C5 $$rhep-ex/9802016$$sPhys.Rev.,D57,5370
000022838 999C5 $$sPhys.Rev.Lett.,40,1617
000022838 999C5 $$sPhys.Rev.,D18,3423
000022838 999C5 $$rhep-ex/9803024$$sPhys.Atom.Nucl.,62,398
000022838 999C5 $$sPhys.Rept.,67,203
000022838 999C5 $$rhep-ex/9801003$$sPhys.Lett.,B422,399
000022838 999C5 $$rhep-ex/9803029$$sPhys.Lett.,B427,398
000022838 999C5 $$sRept.Prog.Phys.,51,833
000022838 999C5 $$sNucl.Phys.,B130,328