Scalar Particles in Lattice QCD

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arXiv:hep-ph/0308291v1 28 Aug 2003ScalarParticlesinLatticeQCD1SCALARCollaborationTeijiKunihiroa),ShinMuroyab),AtushiNakamurac),ChihoNonakad),MotooSekiguchie)andHiroakiWadaf)

a)YITP,KyotoUniversity,Kyoto606-8502,Japan,

b)TokuyamaWomen’sCollege,Tokuyama745-8511,Japan,

c)RIISE,HiroshimaUniversity,Higashi-Hiroshima739-8521,Japan,

d)DepartmentofPhysics,DukeUniversity,Durham,NC27708-0305,USA,

e)FacultyofEngineering,KokushikanUniversity,Tokyo154-8515,Japan,

f)LaboratoryofPhysics,CollegeofScienceandTechnology,

NihonUniversity,Chiba274-8501,Japan.

AbstractWereportaprojecttostudyscalarparticlesbylatticeQCDsim-ulations.Afterabriefintroductionofthecurrentsituationoflatticestudyofthesigmameson,wedescribeournumericalsimulationsofscalarmesons,σandκ.Weobservealowsigmamass,mπforwhichthedisconnecteddiagramplaysanimportantrole.Forthekappameson,weobtainhighermassthantheexperimentalvalue,i.e.mκ∼2mK∗.

1IntroductionTheobjectiveofourcollaborationistounderstandscalarmesonsintheframeworkofQCD.Theconfidencelevelofthesigmamesonhasbeenin-creasing,andanotherscalarmeson[1,2],κ,hasbeenreportedbyseveralexperimentalgroups.InthemodernhadronphysicsbasedonQCD,thechiralsymmetryisanimportantingredientandthesigmamesonplaysanessentialroleinittogetherwiththepion.Theexistenceofthesigmamesonwasobscureformanyyears.There-analysesoftheπ-πscatteringphaseshifthavesuggestedapoleoftheσmesonwithI=0andJPC=0++[3].Inthisanalysis,thechiralsym-metry,analyticity,unitarityandcrossingsymmetryaretakenintoaccount.ContributionsoftheσpolewereobservedinthedecayprocessessuchasD→πππ[4]andΥ(3S)→Υππ[5].In1996PDG(ParticleDataGroup),“f0(400-1200)orσ”appearedbelow1GeVmassregion,and“f0(600)orσ”inthe2002.Ifthesigmamesonexists,itisnaturaltoconsidertheκmesonasamem-berofthenonetscalarstatesofchiralSU(3)⊗SU(3)symmetry.Recently,theκwithI=1/2isreportedwithmassmκ∼800MeV[6,7].WebelievethatitisveryimportantnowtoinvestigatethesescalarmesonsbylatticeQCDinordertoestablishscalarmesonspectroscopyasasoundandimportantpieceofhadronphysics.LatticeQCDprovidesafirst-principleapproachofhadronphysics,andallowsustostudynon-perturbativeaspectsofquark-gluondynamics.Itisarelativisticformula-tion,andquarksaredescribedasDiracfermions.Itisnotamodel,andapartfromnumericallimitations,therearenoapproximations.Itisnotaboundstatecalculation:neitherapotentialmodelnorBethe-Salpetercalculation.LatticeQCDisusuallyformulatedintheEuclideanpathintegralas

Z=󰀁DUD¯ψDψe−SG−¯ψDψ=󰀁DUdetDe−SG,(1)whereSGisthegluonkineticaction,whosecontinuumlimitis−󰀅d4xTrF2µν/4Weconstructastatewithadefinitequantumnumberandmeasurethedecayinthechannel,

G(x,y)=1particle,e.g.ρ,∆andN∗,alsohaszerowidthinlatticeQCDcalculationsintheliterature.Inthecaseofthesigmameson,thisflawshouldbekeptinmind,sincethetwo-pioncomponentmaybeimportant.Therehavebeenseveralattemptsatlatticestudyofsigmamesons.Toourknowledge,thefirstsuchcalculationwascarriedoutbydeTarandKogut[8],wheretheso-calleddisconnecteddiagram,ortheOZIforbiddentypediagramisdiscarded.Thechannelwascalled‘valence’sigma,σV.TheymeasuredthescreeningmassesandobservedthatσVismuchheavierthantheπmesonatthezerotemperature,whileσVandπdegenerateasthetemperatureincreasesoverTc.KimandOhtacalculatedthevalencesigmamasswithstaggeredfermionsforthelatticespacinga=0.054fmandlatticesize48a=2.6fm[9].Theyobtainedmσ/mπ=1.4∼1.6byvaryingmπ/mρ=0.65∼0.3.LeeandWeingarten[10]havestressedtheimportanceofthemixingthescalarmesonandglueballsandconcludedthatf0(1710)isthelightestscalarglueballdominantparticle,whilef0(1390)iscomposedofmainlytheuanddquarkonium.AlfordandJaffeanalyzedthepossibilitythatthesigmaparticleisanexoticstate,i.e.,qq¯q¯qbyalatticeQCDcalculation[11].Allthesecalculationsareinthequenchapproximation,i.e.,thefermiondeterminantinEq.(1)isdropped,whichcorrespondstoignoringquarkpaircreationandannihilationdiagrams.McNeileandMichaelobservedthattheσmesonmassesinthequenchapproximationandinthefullQCDsimulationareverydifferent[12].Theyalsoconsideredthemixingwiththeglueballs.Theyobtainedaverysmallsigmamesonmass,evensmallerthantheπmass,inthefullQCDcase.Therearetwoongoingprojectsofσmesonspectroscopy:Riken-Brookhaven-Columbia(RBC)collaboration[13]andScalarcollaboration[14,15].Thetwoapproachesarecomplementary.TheRBCcollaborationemploysthedomainwallfermions,whichrespectthechiralsymmetry,butincludeaquenchapproximation,whileScalarcollaborationusesWilsonfermions,whichbreakthechiralsymmetryatafinitelatticespacing,butperformsthefullQCDsimulation.RBCreportedtheirsimulationata−1=1.3GeVona163×32lattice.Theyremediedthequenchdefectwiththehelpofthechiralperturbation.Theyobservedthatthemassesofthenon-isosingletscalar(a0)andthesingletscalar(σ)arealmostdegeneratewhenthequarkmassisheavy(abovesquarkmassregions),andthatasthequarkmassdecreases,thea0massremainsalmostconstant,butthemassoftheσdecreases.