Table Of Content

DECAYSOFTHET(1S)INTOAPHOTONANDTWOCHARGEDHADRONS By LUISBREVA-NEVVELL ADISSERTATIONPRESENTEDTOTHEGRADUATESCHOOL OFTHEUNIVERSITYOFFLORIDAINPARTIALFULFILLMENT OFTHEREQUIREMENTSFORTHEDEGREEOF DOCTOROFPHILOSOPHY UNIVERSITYOFFLORIDA 2004 TomyParents. ACKNOWLEDGMENTS Iowemygratitudetomanypeoplewithoutwhomthisworkwouldnothave beenpossible. Firstofall,Iwouldliketothankmysupervisor,Dr. Yelton. His officedoorwasalwaysopenforme,andhespentlonghoursofhistimelistening tomyideaseventhoughonlyafewofthemeverworked. Hegavemefreedomto exploreandbranchoffindifferentdirectionswhilesteadilyguidingmeforwardat thesametime. AftertheseyearsofworkingtogetherIconsiderhimmorethana mentor,andathinkofhimasaclosefriend. DuringmystayattheUniversityofFloridaIhavemetmanypeopleinside andoutsidethephysicsworld. Iwouldliketothankmyfirstyeargraduateteachers Dr. SikivieandDr. Woodardwhowereasourceofinspirationforme. Mythanks alsogotomyfellowgraduatestudentsVijayPotlia,RukshanaPatel,Necula Valentin,JenniferSippel,SuzetteAtienza,G.Suhas,andmanymoreforallourfun physicsdiscussionsandlatehomeworksessions. Iwouldalsoliketothankthegood friends1madeoutsidethephysicsbuilding,JamesPower,YaseenAfzal(Paki), RamjiKamakoti(Ramjizzle),DanDeKee(DoubleDown),andFernandoZamit (Fernizzle)whoalwaysremindedmethatthereismoretolifethanPhysics. ThemostimportantpersonIhavemetduringmygraduatecareerismywife, Jennifer. IthankherforenduringallthoseendlessdayswhenIwouldanswerher questionswithonlygruntsandnodswhilemyattentionremainedfixedonthe computerscreen. Herloveandsupportareinvaluabletome. Finally,IwouldliketothankmyparentsManuelandCharlene,mysister Teresa,andmybrotherGaizka. Theyhavealwaysbeenthereforme. in TABLEOFCONTENTS page ACKNOWLEDGMENTS "* ABSTRACT vi CHAPTER 1 THEORY 1 1.1 ParticlePhysics 1 1.1.1 TheStandardModel 1 1.1.2 QuantumChromodynamics 3 1.1.3 IntroductiontotheRadiativeDecaysoftheT(1S) .... 6 1.2 RadiativeDecaysofQuarkoniaOverview 14 2 EXPERIMENTALAPPARATUS 17 2.1 TheCornellElectronStorageRing 17 2.2 TheCLEOIIIDetector 20 2.2.1 SuperconductingCoil 21 2.2.2 TrackingSystem 21 2.2.3 CrystalCalorimeter 24 2.2.4 RingImagingCherenkovDetector 25 2.2.5 MuonDetectors 28 3 ANALYSISOFTHEDATA 31 3.1 DataSample 31 3.1.1 ContinuumSubtractedDistributions 32 3.2 EventSelection 34 3.2.1 SkimCuts 35 3.2.2 AnalysisCuts 37 3.2.3 CutSummary,Efficiencies,andFakeRates 43 4 EXCLUSIVERADIATIVEDECAYT(LS)->^+n' 48 4.1 RobustnessofTheMassDistribution 48 4.2 StatisticalFitoftheInvariantMassDistribution: SignalAreas andTheirSignificance 49 4.3 AngularDistributionofTheSignal : . . . 50 4.3.1 OptimumMassInterval 51 4.3.2 BackgroundSubtraction 53 iv 4.3.3 StatisticalFitoftheHelicityAngularDistribution: JAs- signmentsandtheirProbabilityDistribution 55 5 EXCLUSIVERADIATIVEDECAYT(15)-»yK+K~ 66 5.1 StatisticalFitoftheInvariantMassDistribution: SignalAreas andTheirSignificance 66 5.2 AngularDistributionofTheSignal 67 6 EXCLUSIVERADIATIVEDECAYT(15)-ipp 80 7 SYSTEMATICUNCERTAINTIES 86 7.1 Cuts 86 7.1.1 JustificationoftheDPTHMUCut 87 7.2 AngularDistributionofSignal 88 7.3 DifferentHadronicFakeRatesBetweenISand4S 97 7.4 OtherSystematicSources 97 7.5 OverallSystematicUncertainties 99 8 RESULTSANDCONCLUSION 100 APPENDIX HELICITYFORMALISMFORTWOBODYDECAYS .... 103 REFERENCES 119 BIOGRAPHICALSKETCH 121 AbstractofDissertationPresentedtotheGraduateSchool oftheUniversityofFloridainPartialFulfillmentofthe RequirementsfortheDegreeofDoctorofPhilosophy DECAYSOFTHET(1S)INTOAPHOTONANDTWOCHARGEDHADRONS By LuisBreva-Newell December2004 Chair: JohnYelton MajorDepartment: Physics UsingtheCLEOIIIdetectorwereportonanewstudyofexclusiveradiative T(15)decaysintothefinalstates77r+7r~,~/K+K~andjpp. Wepresentbranching ratiosforthedecaymodesT(15) ->7/2(1270),T(15) -»7/2(1525),T(15) -* 7/o(1710)with/(1710)-*K+K~andT(15)-*7/4(2050). vi CHAPTER1 THEORY 1.1 ParticlePhysics Particlephysicsisthebranchofphysicsdedicatedtothestudyofmatter a.ndenergyatthemostfundamentallevel. Thismeansthatthejobofaparticle physicististoidentifythesmallestconstituentsofmatteranddescribehowthey interactwitheachother. Humankindhasbeeninterestedinthissubjectsinceancienttimes. Twoofthe firstparticlephysicistsinrecordedhistoryaretheGreekthinkersEmpedoclesand DemocritusfromthefifthcenturyBC.Empedoclesstatedthatourcomplexworld wasmadefromcombiningfourfundamentalelements(earth,air,fireandwater)in differentproportions. Democritusontheotherhand,believedthattheapparently continuousobjectsinthenaturalworldwerenotreallycontinuous,butmadefrom voidsandindivisibleparticlescalledatoms. OverthelasthalfcenturyParticlephysicshasadvancedtremendouslyandwe nowhaveabeautiful,butincomplete,theoryfirmlygroundedonexperimentthat describesthefundamentalconstituentsofmatterandhowtheyinteractwitheach other. Thistheoryiscalled "TheStandardModel." 1.1.1 TheStandardModel AccordingtotheStandardModel,thefundamentalbuildingblocksofmatter arepointlikeparticleswhichinteractwitheachotherinasmanyasthreedifferent ways. Eachtypeofinteraction,orforce,isitselfcarriedbypointlikeparticles calledforcecarriers. Theparticleswhichareforcecarriersarebosons1 andare collectivelycalledgaugebosonsbecausetheyareneededforthetheorytobegauge invariant. Thenon-forcecarryingparticlesarefermions.2 ThethreeinteractionsdescribedbytheStandardModelarecalledthe electromagneticforce,theweakforce,andthestrongforce. Theforceofgravityis notincludedintheStandardModel,andthisisoneofthereasonstheStandard Modelisnotyetcomplete. Theelectromagneticforcecarriersarephotons,the weakforcecarriersaretheZ°,W+,andW~particles,andfinally,thestrongforce iscarriedbyeightkindsofgluons. Table1-1summarizesthesituation. Table1-1: Gaugebosonsandtheforcetheycarry. Symbol Name ForceCarried 7 Photon Electromagnetic Z° Z° Weak w+ w+ Weak w~ w~ Weak 9 gluon Strong Particleswhichinteractthroughaparticularforcearesaidtocoupletoit andtocarryanassociatedcharge. Thenomenclatureisasfollows,particlesthat interactthroughtheelectromagneticforcehaveanelectromagneticchargecalled electriccharge,thosewhichinteractthroughtheweakforcehaveaweakcharge calledweakisospin,andthosewhichinteractstronglyhaveastrongchargecalled color. TherestoftheparticlesintheStandardModelwhicharenotforcecarriers, thefermions,aresubdividedintodifferentgroupsdependingontheirproperties (Seetable1-2),reminiscentofthewaychemistsorganizedtheelementsinto 1Bosonsaredefinedasparticleswithintegerspininquantummechanics. 2Fermionsaredefinedasparticleswithhalfoddfractionalspin. theperiodictableduringthesecondhalfofthenineteenthcentury. Fermionsare dividedintoquarks(genericallyrepresentedbythesymbolq)andleptons. The maindifferencebetweenthesetwogroupsisthatquarksinteractthroughthestrong forcewhileleptonsdonot. Therearesixtypesofleptonsandsixtypesofquarks (alsocalledthesixquarkflavors)whicharegroupedintothreegenerations. Each generationconsistoftwoquarksandtwoleptons. Allthreegenerationsreplicate thesamesetofforcecharges,themaindifferencebetweengenerationsisthemass oftheparticles(forexample,theratioofthemassesofe:/i:Tis1:200:3500). Foreachfermionthereisananti-fermionwithequalmassandspinandopposite charge. Table1-2: Fermionsymbolsclassifiedintoquarks,leptons,andthethreegenera- tionsalongwiththegenerationalcommoncharges. First Second Third Electric Weak Has Generation Generation Generation Charge Charge Color Quarks ud cs tb +-21//33 +-11//22 YYeess +1/2 No Leptons e T -1 -1/2 No 1.1.2 QuantumChromodynamics Quantumchromodynamics(QCD)isthepartoftheStandardModelthat describesthestrongforce. QCDisbasedonlocalgaugeinvarianceandcolor symmetry. Therearethreepossiblecolorchargesforquarkscalledr(red),b(blue), andg(green). Anti-quarkshaveoppositecolorscalledf,b,g. Thestrongforce betweenquarksonlydependsontheircolorsandisindependentoftheirflavor. Averyimportantcharacteristicofthestrongforceisthatgluonsthemselves carryacolorchargeandananti-colorchargesotheycaninteractwithotherquarks throughthestrongforceandchangetheircolor. Sincetherearethreecolorsand threeanti-colorsonemightthinkthatthereareninedifferentgluons. However, thereisonelinearcombinationofcoloranti-colorstatesthathasnonetcolorand leavesaquarkunchanged. Therearetherefore9-1=8gluons. The8individual gluoncolorstatescanbewrittenasfollows, |1>=-={rb+bf) v2 12>=^{rb-bf) |3>=-=[rf-bb) V2 |4>= -^{rg+gf) V2 (i.i) |5>=--Urg-gf) |6>= -f={bg+gb) V2 |7>=~(bg-gb) \S>=-={rf+gg-2bb) vo andrepresenttheeightdifferentgluonsthatexistinnature. Thesingleandunique colorstateleftoutiscalledacolorsinglet, |9>=-^(^+66+gg) (1-2) v3 whichisinvariantunderaredefinitionofthecolor(arotationincolorspace). In grouptheorythisdecompositionofthecolorstatesintoanoctetandasingletis denotedby3<g>3=8©1. Itisworthnotingherethatacolorlesssate,suchas|3> or18>,isnotnecessarilyacolorsingletstate. Thissituationisanalogoustotheperhapsmorefamiliarexampleoftwospin 1/2particles. Eachparticlecanhavetheirspinup(t)ordown(|)correspondingto fourpossiblecombinations,eachgivingatotalspinS= or1. TheS=1states

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