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Experimental Studies Of Charmonium Production And B_c Mesons At LHCb

Posted on:2019-02-09Degree:DoctorType:Dissertation
Country:ChinaCandidate:L P AnFull Text:PDF
GTID:1360330590451487Subject:Physics
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Studies of the properties of heavy-flavour hadrons can help deepen the understanding of strong interactions,which are described by quantum chromodynamics(QCD).QCD processes at short distances are perturbative,while those at long distances are non-perturbative and remain less understood.This dissertation presents the experimental studies of charmonia and Bc mesons with data samples of proton-proton(pp)collisions collected by the LHCb detector at the Large Hadron Collider.In the production of quarkonium in pp collisions,the creation of heavy-quark pairs is expected to be perturbative,while the subsequent evolution of the heavy-quark pairs to quarkonia is non-perturbative,for which the calculations rely essentially on experimental inputs.The inclusive production cross-sections of prompt J/? mesons and those of J/?mesons from b-hadron decays in pp collisions at the centre-of-mass energy(?)-13 TeV are measured using a data sample corresponding to an integrated luminosity of 3.05 pb-1 collected in early 2015.The kinematic range of the measured J/? mesons is pT<14 GeV/c and 2.0<y<4.5,where pT and y indicate the transverse momentum and the rapidity of the J/? meson.The double differential cross-sections as functions of pT and y of the J/? mesons are measured.The integrated cross-section of prompt J/? mesons is determined to be 15.03±0.03(stat)±0.91(syst)?b,and that of J/? mesons from b-hadron decays is 2.25±0.01(stat)±0.13(syst)?b.The results of prompt J/? mesons are consistent with the calculations of non-relativistic QCD(NRQCD)at the next-to-leading order(NLO),and those of J/? mesons from b-hadron decays are consistent with calculations of FONLL,the fixed order plus next-to-leading logarithms.The ratios of the production cross-sections at(?)=13 TeV and those at(?)=8 TeV are determined as functions of pT and y to provide more precise comparisons with the theoretical models,since a large fraction of uncertainties cancel in the ratios from both the experimental and theoretical sides.The FONLL predictions tend to underestimate the cross-section ratios for J/? mesons from b-hadron decays.Measurements of pair production can provide additional information to test the QCD models.The J/? pair can be produced either through the process of single parton scattering(SPS),or through that of double parton scatterings(DPS).The SPS contribution can be calculated by QCD models,and the DPS contribution can be determined from measurements of prompt J/? production cross-section.The production cross-sections of J/? pairs in pp collisions at(?)=13 TeV are measured as functions of various kinematic variables with a data sample corresponding to an integrated luminosity of 279pb-1.The integrated production cross-section of pair for J/? mesons in the kinematic range pT<10 GeV/c and 2.0<y<4.5 is measured to be 15.2±1.0(stat)±0.9(syst)nb.The contributions of SPS and DPS are studied under various theoretical assumptions.Significant DPS contributions are observed in the high ?y range,where ?y is the difference of the rapidities between the two J/? mesons.The SPS contributions are consistent with the calculations of the leading-order(LO)kT factorization,and are overestimated by the NLO colour-singlet model.The decays and spectroscopy of Bc mesons are described by various QCD models,which can be tested through experimental studies of Bc mesons.The branching fraction ratio B3(Bc+??(2S)?+B(Bc+?J/??+)is measured to be 0.268±0.032(stat)±0.007(syst)±0.006(B)with the data samples collected in 2011 and 2012,corresponding to integrated luminosities of 1 fb-1 at(?)?7 TeV and 2 fb-at(?)?8 TeV,respectively.The last uncertainty is due to the uncertainties of the branching fractions of the J/???+?-and ?(2S)??+?-decays.The result agrees well with the calculations of the NRQCD approach at NLO and the kT factorization method.The Bc(2S)+ state,which was observed by the ATLAS experiment,is searched for in the Bc+?+?-mass spectrum using the data sample collected in 2012.No signal is observed.Upper limits are set on the product of the relative production cross-section?(Bc(2S)+)/?(Bc+)and the branching fraction B(Bc(2S)+?Bc+?+?-)under different assumptions of the Bc(2S)+ mass.The upper limits agree with the ATLAS result only if the unpublished efficiency of reconstructing the Bc(2S)+ state relative to that for the Bc+meson is very large at ATLAS.
Keywords/Search Tags:QCD, Heavy quarkonium, B_c meson, LHCb experiment
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