002318238 001__ 2318238
002318238 003__ SzGeCERN
002318238 005__ 20190702155042.0
002318238 0248_ $$aoai:inspirehep.net:1658967$$pcerncds:THESES$$pcerncds:FULLTEXT$$pcerncds:CERN:FULLTEXT$$pINIS$$pcerncds:CERN$$qINSPIRE:HEP$$qForCDS
002318238 035__ $$9http://inspirehep.net/oai2d$$aoai:inspirehep.net:1658967$$d2018-05-14T13:05:58Z$$h2018-05-15T04:00:04Z$$mmarcxml
002318238 035__ $$9Inspire$$a1658967
002318238 041__ $$aeng
002318238 088__ $$aCERN-THESIS-2010-355
002318238 100__ $$aFernando, Waruna Sri$$uOhio State U.
002318238 245__ $$9submitter$$aSearch for the Lepton Flavor Violating Decay Z→eμ
002318238 300__ $$a130 p
002318238 502__ $$aPhD$$bOhio State U.$$c2010
002318238 520__ $$9submitter$$aWe present a search for the lepton flavor violating decay Z→eμ in proton-proton collisions at a center of mass energy of 7 TeV using approximately 3.1 pb$^{-1}$ of data recorded with the ATLAS detector at the CERN large hadron collider. Candidate events have two isolated high p$_{T}$ leptons (an electron and a muon), no jets, and little missing transverse energy. We observe no events with eμ invariant mass above 60 GeV/c$^{2}$. This demonstrates that we can suppress the eμ background to a negligible level and are sensitive to exotic eμ production. We set 95% confidence upper limit on the Z→eμ branching ratio of 2.0 × 10$^{-4}$.
002318238 65017 $$2SzGeCERN$$aParticle Physics - Experiment
002318238 65017 $$2SzGeCERN$$aParticle Physics - Experiment
002318238 690C_ $$aCERN
002318238 690C_ $$aTHESIS
002318238 693__ $$aCERN LHC$$eATLAS
002318238 701__ $$aGan, K.K.$$edir.$$uOhio State U.
002318238 8564_ $$uhttp://rave.ohiolink.edu/etdc/view?acc_num=osu1290045960
002318238 8564_ $$81403296$$s49689470$$uhttps://cds.cern.ch/record/2318238/files/fulltext.pdf$$yFulltext
002318238 8564_ $$81406801$$s49715212$$uhttps://cds.cern.ch/record/2318238/files/fulltext_2.pdf
002318238 960__ $$a14
002318238 980__ $$aTHESIS
002318238 999C6 $$a0-0-0-1-0-0-1$$t2018-03-08 11:53:01$$vInvenio/1.1.2.1260-aa76f refextract/1.5.44$$vcontent.pdf;1
002318238 999C5 $$03203$$hE. Fermi$$mAvailable here$$o1$$sZ.Phys.,88,161-177$$tVersuch einer theorie der -strahlen. i$$y1934
002318238 999C5 $$012286$$hJ. Schwinger$$mAvailable here$$o2$$sAnnals Phys.,2,407-434$$tA theory of the fundamental interactions$$y1957
002318238 999C5 $$hS. Bludman$$o3$$sNuovo Cim.,6,433-445$$tOn the universal fermi interaction$$y1958
002318238 999C5 $$04328$$hS. L. Glashow$$mAvailable here$$o4$$sNucl.Phys.,22,579-588$$tPartial-symmetries of weak interactions$$y1961
002318238 999C5 $$011883$$hP. W. Higgs$$o5$$sPhys.Rev.Lett.,13,508-509$$tBroken symmetries and the masses of gauge bosons$$y1964
002318238 999C5 $$051188$$hS. Weinberg$$o6$$sPhys.Rev.Lett.,19,1264-1266$$tA model of leptons$$y1967
002318238 999C5 $$01304428$$hM. Gell-Mann$$mAvailable here$$o7$$sNuovo Cim.,4,848-866$$tThe interpretation of the new particles as displaced charge multiplets$$y1956
002318238 999C5 $$01616449$$hK. Nishijima$$mAvailable here$$o8$$sProg.Theor.Phys.,13,285-304$$tCharge independence theory of V particles$$y1955
002318238 999C5 $$028176$$hS. H. Neddermeyer and C. D. Anderson$$o9$$sPhys.Rev.,51,884-886$$tNote on the nature of cosmic-ray particles$$y1937
002318238 999C5 $$041409$$hE. P. Hincks and B. Pontecorvo$$o10$$sPhys.Rev.,73,257-258$$tSearch for gamma-radiation in the 2.2-microsecond meson decay process$$y1948
002318238 999C5 $$hL. Michel$$o11$$sPhys.Rev.,86,814-815$$tµ-meson decay and β-radioactivity$$y1952
002318238 999C5 $$046691$$hG. Feinberg$$o12$$sPhys.Rev.,110,1482-1483$$tDecays of the µ meson in the intermediate-meson theory$$y1958
002318238 999C5 $$hD. Berley, J. Lee, and M. Bardon$$o13$$sPhys.Rev.Lett.,2,357-359$$tUpper limit for the decay mode µ → e + γ$$y1959
002318238 999C5 $$028187$$hG. Danby et al.$$m104$$o14$$sPhys.Rev.Lett.,9,36-44$$tObservation of high-energy neutrino reactions and the existence of two kinds of neutrinos$$y1962
002318238 999C5 $$0100634$$hM. L. Perl et al.$$o15$$sPhys.Rev.Lett.,35,1489-1492$$tEvidence for anomalous lepton production in e+ - e- annihilation$$y1975
002318238 999C5 $$0538648$$hK. Kodama et al.$$mAvailable here$$o16$$sPhys.Lett.,B504,218-224$$tObservation of τ neutrino interactions$$y2001
002318238 999C5 $$0582695$$hM. C. Gonzalez-Garcia and Y. Nir$$o17$$sRev.Mod.Phys.,75,345-402$$tDevelopments in neutrino physics$$y2003
002318238 999C5 $$hB. Gripaios$$o18$$sJHEP,1002,s08021$$tComposite leptoquarks at the LHC$$y2010
002318238 999C5 $$0777415$$hG.-J. Ding and M.-L. Yan$$o19$$sPhys.Rev.,D77,014005$$tLepton flavor violating µ → eγ and µ - e conversion in unparticle physics$$y2008
002318238 999C5 $$0812452$$hM. Hirsch et al.$$o20$$sPhys.Rev.,D79,055023$$tMajoron emission in µ and τ decays revisited$$y2009
002318238 999C5 $$0499500$$hM. L. Brooks et al.$$o21$$sPhys.Rev.Lett.,83,1521-1524$$tNew limit for the family number non-conserving decay µ+ → e+γ$$y1999
002318238 999C5 $$0565989$$hM. Ahmed et al.$$o22$$sPhys.Rev.,D65,112002$$tSearch for the lepton-family-number nonconserving decay µ+ → e+γ$$y2002
002318238 999C5 $$0260821$$hR. D. Bolton et al.$$o23$$sPhys.Rev.,D38,2077$$tSearch for rare muon decays with the crystal box detector$$y1988
002318238 999C5 $$0251865$$hU. Bellgardt et al.$$o24$$sNucl.Phys.,B299,1$$tSearch for the decay µ+ → e+e+e-$$y1988
002318238 999C5 $$0828777$$hB. Aubert et al.$$o25$$sPhys.Rev.Lett.,104,021802$$tSearches for lepton flavor violation in the decays τ → eγ and τ → µγ$$y2010
002318238 999C5 $$0767603$$hY. Miyazaki et al.$$o26$$sPhys.Lett.,B660,154-160$$tSearch for lepton flavor violating tau decays into three leptons$$y2008
002318238 999C5 $$0394355$$hR. Akers et al.$$o27$$sZ.Phys.,C67,555-564$$tA search for lepton flavor violating Z0 decays$$y1995
002318238 999C5 $$0424628$$hP. Abreu et al.$$o28$$sZ.Phys.,C73,243-251$$tSearch for lepton flavour number violating Z0 decays$$y1997
002318238 999C5 $$0743556$$hJ. Nix et al.$$o29$$sPhys.Rev.,D76,011101$$tFirst search for KL → π0π0ν¯ν$$y2007
002318238 999C5 $$0656197$$hB. Aubert et al.$$o30$$sPhys.Rev.Lett.,93,191801$$tSearch for flavor-changing neutral current and lepton flavor violating decays of D0 → + -$$y2004
002318238 999C5 $$0811754$$hT. Aaltonen et al.$$o31$$sPhys.Rev.Lett.,102,201801$$tSearch for the decays B0 (s) → e+µ- and B0 (s) → e+e- in CDF Run II$$y2009
002318238 999C5 $$hP. Jenni et al.$$mCERN, Geneva,. 105$$o32$$rATL-TDR-016$$tATLAS high-level trigger, data-acquisition and controls$$y2003
002318238 999C5 $$hE. W. N. Glover$$mInvited talk at DPF Conf., Houston, TX, Jan 3-6$$o33$$tRare Z decays and new physics$$y1990
002318238 999C5 $$hG. Altarelli et al.$$m-V-2, CERN, Geneva$$o34$$rCERN-89-08$$tWorkshop on Z physics at LEP1 : General meetings, v.2 : Z physics at LEP 1 - higgs search and new physics$$y1989
002318238 999C5 $$cATLAS Collaboration$$mCERN, Geneva$$o35$$rATL-TDR-014$$tATLAS detector and physics performance:1$$y1999
002318238 999C5 $$0780935$$hL. Evans and P. Bryant$$o36$$sJINST,3,P02013$$tLHC machine$$y2008
002318238 999C5 $$0809652$$hG. Aad et al.$$o37$$sJINST,3,P07007$$tATLAS pixel detector electronics and sensors$$y2008
002318238 999C5 $$0755578$$hA. Ahmad et al.$$o38$$sNucl.Instrum.Meth.,A578,98-118$$tThe silicon microstrip sensors of the ATLAS semiconductor tracker$$y2007
002318238 999C5 $$hL. G. Johansen et al.$$mT. Nucl$$o39$$pIEEE$$sScience,49,2919-2922$$tRadiation studies of silicon-microstrip detectors for use in ATLAS and SCT$$y2002
002318238 999C5 $$0638416$$hP. J. Dervan$$o40$$sNucl.Instrum.Meth.,A514,163-166$$tThe results of the irradiations of microstrip detectors for the ATLAS tracker (SCT)$$y2003
002318238 999C5 $$0631265$$hY. Unno$$o41$$sNucl.Instrum.Meth.,A511,58-63$$tATLAS silicon microstrip detector system (SCT)$$y2003
002318238 999C5 $$0702981$$hF. Campabadal et al.$$o42$$sNucl.Instrum.Meth.,A552,292-328$$tDesign and performance of the ABCD3TA ASIC for readout of silicon strip detectors in the ATLAS semiconductor tracker$$y2005
002318238 999C5 $$0741729$$hA. Abdesselam et al.$$mCERN, Geneva$$o43$$rATL-INDET-PUB-2007-001$$tThe ATLAS SCT optoelectronics and the associated electrical services$$y2006
002318238 999C5 $$hT. Loddenkoetter$$mCERN, Geneva$$o44$$rATL-INDET-PROC-2010-014$$tAlignment of the ATLAS inner detector tracking system$$y2010
002318238 999C5 $$hA. Mayne$$mCERN, Geneva$$o45$$rATL-INDET-PROC-2010-018$$tATLAS silicon microstrip tracker operation and performance$$y2010
002318238 999C5 $$0780935$$hE. Abat et al.$$o46$$sJINST,3,P02013$$tThe ATLAS transition radiation tracker (TRT) proportional drift tube: design and performance$$y2008
002318238 999C5 $$hM. Capeans$$mT. Nucl$$o47$$pIEEE$$sScience,51,994-1000$$tThe transition radiation tracker of the ATLAS experiment$$y2004
002318238 999C5 $$0918052$$hA. Alonso$$mCERN, Geneva$$o48$$rATL-INDET-PROC-2010-017$$tCommissioning and performance of the ATLAS transition radiation tracker with high energy collisions at LHC$$y2010
002318238 999C5 $$0796888$$cATLAS Collaboration$$m106$$o49$$sJINST,3,S08003$$tThe ATLAS experiment at the CERN large hadron collider$$y2008
002318238 999C5 $$0693583$$hB. Aubert et al.$$o50$$sNucl.Instrum.Meth.,A558,388-418$$tConstruction, assembly and tests of the ATLAS electromagnetic barrel calorimeter$$y2006
002318238 999C5 $$0607033$$hB. Aubert et al.$$o51$$sNucl.Instrum.Meth.,A500,178-201$$tPerformance of the ATLAS electromagnetic calorimeter end-cap module$$y2003
002318238 999C5 $$0792684$$mATLAS Electromagnetic Liquid Argon Endcap Calorimeter Group$$o52$$sJINST,3,P06002$$tConstruction, assembly and tests of the ATLAS electromagnetic end-cap calorimeters$$y2008
002318238 999C5 $$0807220$$hJ. Abdallah et al.$$mCERN, Geneva$$o53$$rATL-TILECAL-PUB-2008-001$$tDesign, construction and installation of the ATLAS hadronic barrel scintillator-tile calorimeter$$y2007
002318238 999C5 $$0753450$$hD. M. Gingrich et al.$$o54$$sJINST,2,P05005$$tConstruction, assembly and testing of the ATLAS hadronic end-cap calorimeter$$y2007
002318238 999C5 $$0784261$$hA. Artamonov et al.$$o55$$sJINST,3,P02010$$tThe ATLAS forward calorimeter$$y2008
002318238 999C5 $$0637723$$hS. Palestini$$o56$$sNucl.Phys.Proc.Suppl.,125,337-345$$tThe muon spectrometer of the ATLAS experiment$$y2003
002318238 999C5 $$hY. Arai et al.$$mT. Nucl$$o57$$pIEEE$$sScience,51,2196-2200$$tOn-chamber readout system for the ATLAS MDT muon spectrometer$$y2004
002318238 999C5 $$0627445$$hG. Aielli et al.$$o58$$sNucl.Instrum.Meth.,A508,189-193$$tTest of ATLAS RPCs front-end electronics$$y2003
002318238 999C5 $$0784318$$hR. Achenbach et al.$$o59$$sJINST,3,P03001$$tThe ATLAS level-1 calorimeter trigger$$y2008
002318238 999C5 $$0797978$$hS. Ask et al.$$o60$$sJINST,3,P08002$$tThe ATLAS central level-1 trigger logic and TTC system$$y2008
002318238 999C5 $$0565642$$hT. Rohe$$o61$$sNucl.Instrum.Meth.,A460,55-66$$tDesign and test of pixel sensors for the ATLAS pixel detector$$y2001
002318238 999C5 $$0431470$$hR. Richter et al.$$o62$$sNucl.Instrum.Meth.,A377,412-421$$tStrip detector design for ATLAS and HERA-B using two-dimensional device simulation$$y1996
002318238 999C5 $$0563294$$hG. Lindstrm et al.$$o63$$sNucl.Instrum.Meth.,A466,308-326$$tRadiation hard silicon detectors - developments by the RD48 (ROSE) collaboration$$y2001
002318238 999C5 $$0727499$$hT. Fritzsch et al.$$o64$$sNucl.Instrum.Meth.,A565,309-313$$tExperience in fabrication of multichip-modules for the ATLAS pixel detector$$y2006
002318238 999C5 $$0681359$$hK. Arms et al.$$m107$$o65$$sNucl.Instrum.Meth.,A554,458-468$$tATLAS pixel opto-electronics$$y2005
002318238 999C5 $$0853395$$cATLAS Collaboration$$mArXiv e-prints$$o66$$rarXiv:1004.5293$$tThe ATLAS inner detector commissioning and calibration$$y2010
002318238 999C5 $$0807005$$hH. M. Gray$$mAvailable here$$o67$$sJINST,4,P03018$$tAlignment of the ATLAS inner detector tracking system$$y2009
002318238 999C5 $$hA. Andreazza$$mCERN, Geneva$$o68$$rATL-INDET-PROC-2010-015$$tATLAS pixel detector operation and performance$$y2010
002318238 999C5 $$o69$$uhttps://twiki.cern.ch/twiki/bin/view/AtlasProtected/McGeneratorsForAtlas
002318238 999C5 $$0712925$$hT. Sjostrand, S. Mrenna, and P. Z. Skands$$o70$$sJHEP,0605,026$$tPYTHIA 6.4 physics and manual$$y2006
002318238 999C5 $$0537586$$hG. Corcella et al.$$o71$$sJHEP,0101,010$$tHERWIG 6.5: an event generator for hadron emission reactions with interfering gluons (including supersymmetric processes)$$y2001
002318238 999C5 $$0803708$$hT. Gleisberg et al.$$o72$$sJHEP,0902,007$$tEvent generation with SHERPA 1.1$$y2009
002318238 999C5 $$0537385$$hZ. Was$$o73$$sNucl.Phys.Proc.Suppl.,98,96-102$$tTAUOLA the library for tau lepton decay, and KKMC/KORALB/KORALZ/... status report$$y2001
002318238 999C5 $$0468506$$hF. W. Bopp et al.$$o74$$rhep-ph/9803437$$tRapidity gaps and the PHOJET monte carlo
002318238 999C5 $$0635810$$hP. Golonka et al.$$mAvailable here$$o75$$sComput.Phys.Commun.,174,818-835$$tThe tauola-photos-F environment for the TAUOLA and PHOTOS packages, release II$$y2006
002318238 999C5 $$0415636$$hJ. M. Butterworth, J. R. Forshaw, and M. H. Seymour$$o76$$sZ.Phys.,C72,637-646$$tMultiparton interactions in photoproduction at HERA$$y1996
002318238 999C5 $$0585687$$hS. Frixione and B. R. Webber$$o77$$sJHEP,0206,029$$tMatching NLO QCD computations and parton shower simulations$$y2002
002318238 999C5 $$0589478$$hM. L. Mangano$$o78$$sJHEP,0307,001$$tALPGEN, a generator for hard multiparton processes in hadronic collisions$$y2003
002318238 999C5 $$0753279$$hJ. Alwall et al.$$o79$$sJHEP,0709,028$$tMadGraph/MadEvent v4: the new web generation$$y2007
002318238 999C5 $$o80$$uhttp://lcgapp.cern.ch/project/simu/generator/
002318238 999C5 $$0553387$$hM. Dobbs and J. Hansen$$o81$$sComput.Phys.Commun.,134,41-46$$tThe HepMC C++ Monte Carlo event record for high energy physics$$y2001
002318238 999C5 $$hJ. Allison et al.$$mT. Nucl$$o82$$pIEEE$$sScience,53,270-278$$tGEANT4 developments and applications$$y2006
002318238 999C5 $$01197243$$hT. Cornelissen et al.$$mCERN, Geneva,. 108$$o83$$rATL-SOFT-PUB-2007-007$$tConcepts, design and implementation of the ATLAS new tracking$$y2007
002318238 999C5 $$01196576$$hF. Akesson et al.$$mCERN, Geneva$$o84$$rATL-SOFT-PUB-2007-006$$tATLAS inner detector event data model$$y2007
002318238 999C5 $$0810300$$hG. Aad et al.$$mCERN, Geneva$$o85$$rCERN-OPEN-2008-020$$tExpected performance of the ATLAS experiment: detector, trigger and physics$$y2009
002318238 999C5 $$0853395$$hG. Aad et al.$$mCERN, Geneva$$o86$$rarXiv:1004.5293$$tThe ATLAS inner detector commissioning and calibration$$y2010
002318238 999C5 $$hV. Rossetti$$mCERN, Geneva$$o87$$rATL-TILECAL-PROC-2010-009$$tCommissioning of the ATLAS tile hadronic calorimeter with cosmic muons, single beams and first collisions$$y2010
002318238 999C5 $$hG. Zevi Della$$mPorta ATL-MUON-PROC--003, CERN, Geneva$$o88$$tRecent performance results with the ATLAS muon spectrometer$$y2010
002318238 999C5 $$0807147$$hW. Lampl et al.$$mCERN, Geneva$$o89$$rATL-COM-LARG-2008-003$$tCalorimeter clustering algorithms: description and performance$$y2008
002318238 999C5 $$0826365$$cATLAS Collaboration$$mCERN, Geneva$$o90$$rATL-COM-PHYS-2009-118$$tMeasurement of missing transverse energy$$y2009
002318238 999C5 $$hC. Kesselman and I. Foster$$mThe Grid: Blueprint for a New Computing Infrastructure, Morgan Kaufmann Publishers$$o91$$y1998
002318238 999C5 $$hA. Hoecker et al.$$mArXiv Physics e-prints$$o92$$tTMVA - toolkit for multivariate data analysis$$y2007
002318238 999C5 $$o93$$uhttp://cernvm.cern.ch/cernvm/
002318238 999C5 $$hJ. Hartert and I. Ludwig$$mCERN, Geneva$$o94$$rATL-PHYS-INT-2010-052$$tElectron isolation in the ATLAS experiment$$y2010
002318238 999C5 $$01204012$$cATLAS Collaboration$$mCERN, Geneva$$o95$$rATLAS-CONF-2010-076$$tMeasurement of the Z → ll production cross section in proton-proton collisions at √ s = 7 TeV with the ATLAS detector$$y2010
002318238 999C5 $$01204037$$cATLAS Collaboration$$mCERN, Geneva$$o96$$rATLAS-CONF-2010-051$$tMeasurement of the Wlν production cross-section and observation of Z → ll production in proton-proton collisions at √ s = 7 TeV with the ATLAS detector$$y2010
002318238 999C5 $$01203983$$cATLAS Collaboration$$mCERN, Geneva$$o97$$rATLAS-CONF-2010-006$$tPerformance of the ATLAS electromagnetic calorimeter for π0 → γγ and η → γγ events$$y2010
002318238 999C5 $$0792295$$hC. Amsler et al.$$o98$$sPhys.Lett.,B667,1$$tReview of particle physics$$y2008
002318238 999C5 $$01204031$$cATLAS Collaboration$$mCERN, Geneva$$o99$$rATLAS-CONF-2010-057$$tPerformance of the missing transverse energy reconstruction and calibration in proton-proton collisions at a center-of-mass energy of 7 TeV with the ATLAS detector$$y2010
002318238 999C5 $$01204024$$cATLAS Collaboration$$mCERN, Geneva,. 109$$o100$$rATLAS-CONF-2010-064$$tMuon reconstruction performance$$y2010
002318238 999C5 $$0454197$$hG. J. Feldman and R. D. Cousins$$o101$$sPhys.Rev.,D57,3873-3889$$tUnified approach to the classical statistical analysis of small signals$$y1998
002318238 999C5 $$0315752$$hR. D. Cousins and V. L. Highland$$o102$$sNucl.Instrum.Meth.,A320,331-335$$tIncorporating systematic uncertainties into an upper limit$$y1992
002318238 999C5 $$042697$$hR. A. Fisher$$o103$$sAnnals Eugen.,7,179-188$$tThe use of multiple measurements in taxonomic problems$$y1936
002318238 999C5 $$0621398$$hW. Verkerke and D. Kirkby$$mAvailable here$$o104$$rphysics/0306116$$tThe roofit toolkit for data modeling
002318238 999C5 $$hA. Lazzaro et al.$$mJ. Phys.: Conf. Ser. 219 042044. 110$$o105$$tMINUIT package parallelization and applications using the RooFit package$$y2010