Evidence for Associated Production of a Single Top Quark
and
W
Boson in
pp
Collisions at
ffiffiffi
s
p
¼
7 TeV
S. Chatrchyanet al.* (CMS Collaboration)
(Received 16 September 2012; published 11 January 2013)
Evidence is presented for the associated production of a single top quark andWboson inppcollisions at ffiffiffi
s
p
¼7 TeV with the CMS experiment at the LHC. The analyzed data correspond to an integrated luminosity of4:9 fb 1. The measurement is performed using events with two leptons and a jet originated
from a b quark. A multivariate analysis based on kinematic properties is utilized to separate the tt
background from the signal. The observed signal has a significance of4:0and corresponds to a cross section of16þ54 pb, in agreement with the standard model expectation of15:60:4þ11::02 pb.
DOI:10.1103/PhysRevLett.110.022003 PACS numbers: 14.65.Ha, 12.15.Hh, 13.85.Qk
Electroweak production of single top quarks has been first observed by the D0 [1] and CDF [2] experiments at the Tevatron. Single top quark production proceeds via three processes: thet-channel exchange of a virtualWboson, the
s-channel production and decay of a virtualW boson, and the associated production of a top quark and a W boson (tW). The latter channel, which has a negligible production cross section at the Tevatron, represents a significant con-tribution to single top quark production at the Large Hadron Collider (LHC). Associated tW production is a very interesting production mechanism because of its in-terference with top quark pair production [3–5], its sensi-tivity to new physics [6–8], and its role as a background to SUSY and Higgs searches. The ATLAS and Compact Muon Solenoid (CMS) experiments have measured the cross section for t-channel production [9,10] while evi-dence fortW associated production has been presented by the ATLAS experiment [11]. This Letter presents the first study from the CMS experiment oftW production inpp
collisions atpffiffiffis
¼7 TeV.
The production cross section fortW has been computed at approximate next-to-next-to-leading order (NNLO), the theoretical prediction of the cross section for tW in pp
collisions atpffiffiffis
¼7 TeV, assuming a top quark mass (mt) of 172.5 GeV, is 15:60:4þ1:0
1:2 pb [12], the first uncer-tainty corresponds to scale variation and the second to parton distribution function (pdf ) sets.
The leading order Feynman diagrams fortWproduction are shown in Fig. 1. The definition of tW production in perturbative QCD mixes with top quark pair production (tt) at next-to-leading order (NLO) [4,5]. Two schemes are proposed to describe the tW signal: ‘‘diagram removal’’
(DR) [3], where all NLO diagrams that are doubly reso-nant, such as those in Fig.2, are excluded from the signal definition; and ‘‘diagram subtraction’’ (DS) [3,13], in which the differential cross section is modified with a gauge-invariant subtraction term, which locally cancels the contribution of ttdiagrams. The DR scheme is used in this Letter, but it has been verified that the number of predicted events after full selection is consistent between the two approaches within the statistical uncertainties of the simulated samples. The differences are accounted for in the systematic uncertainties.
In the standard model, top quarks decay almost exclu-sively to a W boson and ab quark. The study presented here has been performed in the channels in which bothW
bosons decay leptonically into a muon or an electron and a neutrino, with a branching fraction BðW!‘Þ ¼ ð10:800:09Þ%, where ‘¼e or [14]. The dilepton final states of the tW process are characterized by the presence of two isolated leptons with opposite charge, a jet from the fragmentation of abquark, and a substantial amount of missing transverse energy (Emiss
T ) due to the presence of the neutrinos. The primary source of back-ground events arise from tt production, followed by
Z=?þjets processes.
The analysis uses fits to a discriminant variable built from kinematic quantities combined with a multivariate technique. A second analysis, intended as a cross-check of the robustness of the selection, is performed using event counting. In both cases, a sample collected atpffiffiffis
¼7 TeV
FIG. 1. Leading order Feynman diagrams for single top quark production in the tW mode; the charge-conjugate modes are implicitly included.
*Full author list given at the end of the article.
by CMS, corresponding to an integrated luminosity of 4:9 fb 1, is used.
The central feature of the CMS apparatus is a super-conducting solenoid of 6 m internal diameter, providing a magnetic field of 3.8 T. Within the field volume are a silicon pixel and strip tracker, a lead tungstate crystal electromagnetic calorimeter, and a brass or scintillator hadron calorimeter. Muons are measured in gas-ionization detectors embedded in the steel return yoke. Extensive forward calorimetry complements the coverage provided by the barrel and endcap detectors. A more detailed description can be found in Ref. [15].
Single top quark events in all channels have been simu-lated with thePOWHEG event generator version 301 [16], designed to describe the full NLO properties of these processes, whileMADGRAPH 5.1.1 [17] is used for ttand for the inclusive single-boson production (VþX), where
V¼W,Z, andX can indicate light or heavy partons. The remaining background samples are simulated usingPYTHIA version 6.4.24 [18], including diboson production and QCD multijet production enriched in events with electrons or muons produced in the decay of b and cquarks, and muons from the decay of long-lived hadrons. The CTEQ 6.6M pdf sets [19] are used for all simulated samples. All generated events undergo a full simulation of the detector response usingGEANT4 [20,21]. The value used for the top quark mass ismt¼172:5 GeV.
Approximate NNLO theoretical predictions are used to normalizettproduction (tt ¼163þ1110 pb) [22],Wþjets and Z=þ jets processes are normalized to complete NNLO calculations for the inclusive cross sections, and NLO cross sections are used for diboson processes [23]. Unless otherwise stated, the theoretical values of the cross section have been used in this Letter to normalize the simulation in figures and tables.
Leptons, jets, and Emiss
T are reconstructed by the CMS particle flow (PF) algorithm [24], which performs a global event reconstruction and provides the full list of particles identified as electrons, muons, photons, and charged and neutral hadrons.
Events are collected using dilepton triggers with elec-trons or muons. The lepton transverse energy thresholds are symmetric, the highest used in these triggers is 17 GeV while the lowest is 8 GeV. The two selected leptons must originate from the same primary vertex and have opposite
charge. The primary vertex used is defined as the recon-structed vertex with the highestpTof associated tracks and is required to have at least four tracks, with longitudinal (radial) distance of less than 24 (2) cm from the center of the detector. Muon (electron) candidates are required to have a transverse momentum pT>20 GeV and pseudorapidity
jj<2:4ð2:5Þ; events with additional leptons passing looser quality criteria are vetoed.
To remove low invariant mass Drell-Yan (Z=) events, the invariant mass of the lepton pair (m‘‘) is required to be greater than 20 GeV. In theeeandfinal states, events are also rejected ifm‘‘ is between 81 and 101 GeV, com-patible with the Z boson mass; this veto removes back-ground from Z=þjets, as well as from ZZ and WZ processes. In theeeanddecay channels, a requirement is applied on the Emiss
T as well to further reduce the con-tribution from events without genuine Emiss
T (mostly
Z=þjets and QCD multijet production). Since the
Emiss
T resolution is degraded in events with high pileup, an additional quantity is used (tracker-Emiss
T ), calculated using only the charged particles associated with the pri-mary vertex. Events are selected if both Emiss
T and
tracker-Emiss
T are larger than 30 GeV.
Jets are defined according to the anti-kTalgorithm [25] with a distance parameter of 0.5. Jets withinjj<2:4and withpT>30 GeVare considered in the analysis.
Exactly one jet is required to be present in the event, and it must be identified as coming from a b quark. The identification of bjets is done according to an algorithm that reconstructs the secondary vertex of the decay of theb
quark [26,27], resulting in a discriminating variable sensi-tive to the lifetime of b hadrons. The selection on this discriminant yields a b-tagging efficiency of 62% with a mistag rate of 1.4% for jets with pT between 50 and 80 GeV. Events with additional b-tagged jets with pT>
20 GeV are removed. After this selection, the sample is dominated byttevents and atW signal.
Additionally, events with exactly two jets, in which either one or both jets have been b tagged, are used in the fit. Three regions are defined per dilepton final state: one region with one jet that isbtagged (1j1t) where thetW
signal is substantial, and two regions with two jets, where the ttbackground is dominant, and exactly one or twob
tags are required (2j1tand2j2t, respectively).
A smaller background comes from Z= events. It is found that in high-pileup scenarios the Emiss
T distribution forZ=events is not properly modeled by the simulation, leading to disagreement between data and simulation. To solve this problem, the Z= simulation is corrected to match the missing transverse energy distribution observed in the data using events from theZresonance.
The contributions of other backgrounds, i.e., diboson production (WW, WZ, ZZ), QCD, Wþjets, and other single top quark processes, are small, less than 1% of the selected events, and estimated from simulation.
The number of events in the signal and two control regions is presented for data and simulation in Table I. The approximate composition of the sample at this level is 70%ttevents with 20%tWevents in the signal region. In the2j1tregion thettcontent represents 90% of the events, whiletWevents are less than 6%. In the2j2tregion, more than 95% of the events arettevents.
A multivariate analysis based on boosted decision trees (‘‘BDT’’ analysis) [28,29] is used, testing the overall com-patibility of the signal event candidates with the event topology of thetW associated production. Four variables are chosen to train the BDT based on their ability to separate thetW signal from the dominantttbackground. These variables areHT, defined as the scalar sum of the transverse momenta of the leptons, jet, andEmiss
T , thepTof the system composed of the leptons,Emiss
T and jet, thepTof the jet with the highest energy, and the difference in angular separation, , between the direction associated to the Emiss
T and the closest of the two selected leptons. The distributions ofHTand thepTof the system composed of the leptons,Emiss
T and the jet, are presented, in the signal region (1j1t), in Fig.3. The presence of thetW signal over the background is visible in all the distributions. The distributions of the other two variables are available in the Supplemental Material [30].
The output of the BDT is a single discriminant value for every event ranging from 1 (backgroundlike) to þ1 (signal-like). The distribution of the BDT discriminant is shown for the1j1tsignal region in Fig.4. Even if thetW
signal does not peak strongly atþ1, its distribution dis-criminates it with respect to tt and other backgrounds. Maximum signal sensitivity is achieved through a simul-taneous fit to 9 categories: the 3 BDT discriminant shapes (1j1t,2j1t, and2j2t) in the three final states (ee,e, and
). The twottenriched regions are included to control the rate of this background in the signal region.
The impact of each individual source of uncertainty on the analysis has been estimated in every region and final state. The dominant systematic uncertainty that affects the rate of the tW signal is associated with the b-tagging efficiency, with values between 3% and 6% for the differ-ent final states. Theb-tagging efficiency uncertainty is also important for thettbackground yield, with values between 1.5% and 4.0%. The main systematic uncertainty for thett
background is due to the factorization/renormalization
scale used in the simulation, up to 11%, with values around 2% for thetW signal. Also fortt, the uncertainties due to jet energy scale (7%) and the threshold used to match the matrix element generator to the parton shower model in
TABLE I. Event yields in the different regions. The simulation is quoted with statistical (first) and systematic uncertainties (second). When only one uncertainty is quoted, it is the total one.
1j1t 2j1t 2j2t
tW 336516 180316 4516
tt 126319138 277528205 148821222
Z=þjets 1281228 1131022 8:51:81:8
Other 193 8:80:70:2 43
Total estimated 174623141 307730207 154621222
Total data 1699 2878 1507
[GeV]
T
H
0 50 100 150 200 250 300 350 400 450 500
Events / 20 GeV
0 50 100 150 200 250 300 Data tW t t *+jets γ Z/ Other Systematic -1
= 7 TeV, 4.9 fb s
CMS,
of the system [GeV]
T
p
0 20 40 60 80 100 120 140 160 180 200
Events / 6.67 GeV
0 50 100 150 200 250 300 350 Data tW t t *+jets γ Z/ Other Systematic -1
= 7 TeV, 4.9 fb s
CMS,
FIG. 3 (color online). Distributions ofHT and thepT of the system composed of the leptons,Emiss
T and the jet, in data and
simulation (3%) are important. The statistical uncertainty is the largest contribution to the uncertainty of the mea-sured cross section, with a 20% effect. The complete information about the systematic uncertainties is available in tabulated form in the Supplemental Material [30].
A binned likelihood fit is performed on the distributions of the BDT discriminant. Template shapes for the signal and backgrounds are taken from simulation. Distributions are included separately in the fit for each of the three dilepton channels (ee,e, and ) in the signal region (1j1t) and control regions (2j1t and 2j2t). Signal and background rates are allowed to vary in the fit, using the systematic uncertainties on the background rates as con-straint terms in the likelihood function. The signal rate and 68% confidence level (C.L.) interval is determined using the profile likelihood method. The sources of theoretical uncertainty that affect the template shape are then consid-ered. For each uncertainty, 1 systematic shifts are applied to the simulated samples to obtain revised tem-plates. Differences in signal rates found using the revised templates are taken as systematic uncertainties and are added in quadrature to the1 interval from the fit using the baseline templates. The expected significance is eval-uated using the median and central 68% of the values obtained from pseudoexperiments generated using the theoretical prediction of the standard model tW cross section.
An excess of events over the expected background is observed with a significance of4:0, compatible with the expected significance of the tW signal, 3:6þ0:8
0:9. The measured cross section, including both statistical and sys-tematic uncertainties, is 16þ5
4 pb, in agreement with the standard model prediction.
The measurement can be used to determine the absolute value of the Cabibbo-Kobayashi-Maskawa matrix element
jVtbj, following the same technique as in [10], assuming thatjVtdjandjVtsjare much smaller thanjVtbj:
jVtbj ¼ ffiffiffiffiffiffiffiffiffi
tW
th
tW
s
¼1:01þ0:16
0:13ðexp:Þþ00::0304ðth:Þ; (1)
where th
tW is the standard model prediction computed assumingjVtbj ¼1. Using the standard model assumption of0 jVtbj21, a value ofjV
tbj ¼1:00is inferred, with a 90% confidence level interval of [0.79,1.00]. This is based on profile likelihood intervals, the same method used for the cross section measurement and intervals. Studies with pseudoexperiments were performed, showing the validity of the profile likelihood method in presence of the boundaryjVtbj 1:0.
A second analysis (‘‘count-based’’ analysis), used as a cross-check, is performed using event counts. After the jet selection step, instead of building the BDT discriminant, events are required in addition to havingHT>60 GeVin theechannel, where no invariant mass andEmiss
T require-ments are applied. The analysis uses a statistical model of Poisson event counts in the three dilepton final states in the signal region (1j1t) and control regions (2j1t and 2j2t). The event yield for each process in every region is affected by different sources of systematic uncertainties, equivalent to the ones calculated for the BDT analysis. These are included in the model as nuisance parameters. The same methods for the cross section measurement and the signifi-cance calculation as in the BDT analysis have been used. Figure5shows the event yields selected by the count-based analysis for each region, in data and simulation, in which BDT discriminant
-1.0 to -0.99 -0.99 to -0.7 -0.7 to 0.7 0.7 to 0.99 0.99 to 1.0
Events 0 100 200 300 400 500 600 700 Data tW t t *+jets γ Z/ & Other Systematic -1
= 7 TeV, 4.9 fb s
CMS,
FIG. 4 (color online). Distribution of the BDT discriminant in the signal region (1j1t) in data and simulation.
1j1t 2j1t 2j2t
Events 500 1000 1500 2000 2500 3000 3500 Data tW t t *+jets γ Z/ Other Systematic -1
= 7 TeV, 4.9 fb s
CMS,
the simulation yields have been normalized to the outcome of the maximum likelihood fit. The observed significance of thetW signal obtained with the count-based analysis is 3:5, with an expected significance of 3:20:9. The count-based analysis measures a cross section of 15 5 pb. These results are consistent with those obtained with the BDT analysis.
In summary, using 4:9 fb 1 of data collected with the CMS experiment at the LHC, evidence has been found for the associated production of a single top quark and W
boson inppcollisions atpffiffiffis
¼7 TeVwith a significance of4:0and a measured cross section of16þ54 pb.
We congratulate our colleagues in the CERN accelerator departments for the excellent performance of the LHC machine. We thank the technical and administrative staff at CERN and other CMS institutes, and acknowledge sup-port from BMWF and FWF (Austria); FNRS and FWO (Belgium); CNPq, CAPES, FAPERJ, and FAPESP (Brazil); MES (Bulgaria); CERN; CAS, MoST, and NSFC (China); COLCIENCIAS (Colombia); MSES (Croatia); RPF (Cyprus); MoER, SF0690030s09, and ERDF (Estonia); Academy of Finland, MEC, and HIP (Finland); CEA and CNRS/IN2P3 (France); BMBF, DFG, and HGF (Germany); GSRT (Greece); OTKA and NKTH (Hungary); DAE and DST (India); IPM (Iran); SFI (Ireland); INFN (Italy); NRF and WCU (Korea); LAS (Lithuania); CINVESTAV, CONACYT, SEP, and UASLP-FAI (Mexico); MSI (New Zealand); PAEC (Pakistan); MSHE, and NSC (Poland); FCT (Portugal); JINR (Armenia, Belarus, Georgia, Ukraine, Uzbekistan); MON, RosAtom, RAS, and RFBR (Russia); MSTD (Serbia); SEIDI and CPAN (Spain); Swiss Funding Agencies (Switzerland); NSC (Taipei); TUBITAK and TAEK (Turkey); STFC (United Kingdom); and DOE and NSF (USA).
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D. Denegri,28B. Fabbro,28J. L. Faure,28F. Ferri,28S. Ganjour,28A. Givernaud,28P. Gras,28 G. Hamel de Monchenault,28P. Jarry,28E. Locci,28J. Malcles,28L. Millischer,28A. Nayak,28J. Rander,28 A. Rosowsky,28I. Shreyber,28M. Titov,28S. Baffioni,29F. Beaudette,29L. Benhabib,29L. Bianchini,29M. Bluj,29,n
C. Broutin,29P. Busson,29C. Charlot,29N. Daci,29T. Dahms,29M. Dalchenko,29L. Dobrzynski,29
R. Granier de Cassagnac,29M. Haguenauer,29P. Mine´,29C. Mironov,29I. N. Naranjo,29M. Nguyen,29C. Ochando,29 P. Paganini,29D. Sabes,29R. Salerno,29Y. Sirois,29C. Veelken,29A. Zabi,29J.-L. Agram,30,oJ. Andrea,30D. Bloch,30 D. Bodin,30J.-M. Brom,30M. Cardaci,30E. C. Chabert,30C. Collard,30E. Conte,30,oF. Drouhin,30,oC. Ferro,30 J.-C. Fontaine,30,oD. Gele´,30U. Goerlach,30P. Juillot,30A.-C. Le Bihan,30P. Van Hove,30F. Fassi,31D. Mercier,31
S. Beauceron,32N. Beaupere,32O. Bondu,32G. Boudoul,32J. Chasserat,32R. Chierici,32,fD. Contardo,32 P. Depasse,32H. El Mamouni,32J. Fay,32S. Gascon,32M. Gouzevitch,32B. Ille,32T. Kurca,32M. Lethuillier,32 L. Mirabito,32S. Perries,32L. Sgandurra,32V. Sordini,32Y. Tschudi,32P. Verdier,32S. Viret,32V. Roinishvili,33 G. Anagnostou,34C. Autermann,34S. Beranek,34M. Edelhoff,34L. Feld,34N. Heracleous,34O. Hindrichs,34
R. Jussen,34K. Klein,34J. Merz,34A. Ostapchuk,34A. Perieanu,34F. Raupach,34J. Sammet,34S. Schael,34 D. Sprenger,34H. Weber,34B. Wittmer,34V. Zhukov,34,pM. Ata,35J. Caudron,35E. Dietz-Laursonn,35D. Duchardt,35
M. Erdmann,35R. Fischer,35A. Gu¨th,35T. Hebbeker,35C. Heidemann,35K. Hoepfner,35D. Klingebiel,35 P. Kreuzer,35M. Merschmeyer,35A. Meyer,35M. Olschewski,35P. Papacz,35H. Pieta,35H. Reithler,35
S. A. Schmitz,35L. Sonnenschein,35J. Steggemann,35D. Teyssier,35M. Weber,35M. Bontenackels,36 V. Cherepanov,36Y. Erdogan,36G. Flu¨gge,36H. Geenen,36M. Geisler,36W. Haj Ahmad,36F. Hoehle,36B. Kargoll,36
T. Kress,36Y. Kuessel,36J. Lingemann,36,fA. Nowack,36L. Perchalla,36O. Pooth,36P. Sauerland,36A. Stahl,36 M. Aldaya Martin,37J. Behr,37W. Behrenhoff,37U. Behrens,37M. Bergholz,37,qA. Bethani,37K. Borras,37
C. Diez Pardos,37G. Eckerlin,37D. Eckstein,37G. Flucke,37A. Geiser,37I. Glushkov,37P. Gunnellini,37S. Habib,37 J. Hauk,37G. Hellwig,37H. Jung,37M. Kasemann,37P. Katsas,37C. Kleinwort,37H. Kluge,37A. Knutsson,37 M. Kra¨mer,37D. Kru¨cker,37E. Kuznetsova,37W. Lange,37W. Lohmann,37,qB. Lutz,37R. Mankel,37I. Marfin,37
M. Marienfeld,37I.-A. Melzer-Pellmann,37A. B. Meyer,37J. Mnich,37A. Mussgiller,37S. Naumann-Emme,37 O. Novgorodova,37J. Olzem,37H. Perrey,37A. Petrukhin,37D. Pitzl,37A. Raspereza,37P. M. Ribeiro Cipriano,37
C. Riedl,37E. Ron,37M. Rosin,37J. Salfeld-Nebgen,37R. Schmidt,37,qT. Schoerner-Sadenius,37N. Sen,37 A. Spiridonov,37M. Stein,37R. Walsh,37C. Wissing,37V. Blobel,38J. Draeger,38H. Enderle,38J. Erfle,38 U. Gebbert,38M. Go¨rner,38T. Hermanns,38R. S. Ho¨ing,38K. Kaschube,38G. Kaussen,38H. Kirschenmann,38 R. Klanner,38J. Lange,38B. Mura,38F. Nowak,38T. Peiffer,38N. Pietsch,38D. Rathjens,38C. Sander,38H. Schettler,38
P. Schleper,38E. Schlieckau,38A. Schmidt,38M. Schro¨der,38T. Schum,38M. Seidel,38J. Sibille,38,rV. Sola,38 H. Stadie,38G. Steinbru¨ck,38J. Thomsen,38L. Vanelderen,38C. Barth,39J. Berger,39C. Bo¨ser,39T. Chwalek,39
W. De Boer,39A. Descroix,39A. Dierlamm,39M. Feindt,39M. Guthoff,39,fC. Hackstein,39F. Hartmann,39 T. Hauth,39,fM. Heinrich,39H. Held,39K. H. Hoffmann,39U. Husemann,39I. Katkov,39,pJ. R. Komaragiri,39 P. Lobelle Pardo,39D. Martschei,39S. Mueller,39Th. Mu¨ller,39M. Niegel,39A. Nu¨rnberg,39O. Oberst,39A. Oehler,39
J. Ott,39G. Quast,39K. Rabbertz,39F. Ratnikov,39N. Ratnikova,39S. Ro¨cker,39F.-P. Schilling,39G. Schott,39 H. J. Simonis,39F. M. Stober,39D. Troendle,39R. Ulrich,39J. Wagner-Kuhr,39S. Wayand,39T. Weiler,39M. Zeise,39
G. Daskalakis,40T. Geralis,40S. Kesisoglou,40A. Kyriakis,40D. Loukas,40I. Manolakos,40A. Markou,40 C. Markou,40C. Mavrommatis,40E. Ntomari,40L. Gouskos,41T. J. Mertzimekis,41A. Panagiotou,41N. Saoulidou,41
I. Evangelou,42C. Foudas,42P. Kokkas,42N. Manthos,42I. Papadopoulos,42V. Patras,42G. Bencze,43C. Hajdu,43 P. Hidas,43D. Horvath,43,sF. Sikler,43V. Veszpremi,43G. Vesztergombi,43,tN. Beni,44S. Czellar,44J. Molnar,44 J. Palinkas,44Z. Szillasi,44J. Karancsi,45P. Raics,45Z. L. Trocsanyi,45B. Ujvari,45S. B. Beri,46V. Bhatnagar,46
N. Dhingra,46R. Gupta,46M. Kaur,46M. Z. Mehta,46N. Nishu,46L. K. Saini,46A. Sharma,46J. B. Singh,46 Ashok Kumar,47Arun Kumar,47S. Ahuja,47A. Bhardwaj,47B. C. Choudhary,47S. Malhotra,47M. Naimuddin,47 K. Ranjan,47V. Sharma,47R. K. Shivpuri,47S. Banerjee,48S. Bhattacharya,48S. Dutta,48B. Gomber,48Sa. Jain,48
Sh. Jain,48R. Khurana,48S. Sarkar,48M. Sharan,48A. Abdulsalam,49R. K. Choudhury,49D. Dutta,49S. Kailas,49 V. Kumar,49P. Mehta,49A. K. Mohanty,49,fL. M. Pant,49P. Shukla,49T. Aziz,50S. Ganguly,50M. Guchait,50,u M. Maity,50,vG. Majumder,50K. Mazumdar,50G. B. Mohanty,50B. Parida,50K. Sudhakar,50N. Wickramage,50
S. Banerjee,51S. Dugad,51H. Arfaei,52,wH. Bakhshiansohi,52S. M. Etesami,52,xA. Fahim,52,wM. Hashemi,52 H. Hesari,52A. Jafari,52M. Khakzad,52M. Mohammadi Najafabadi,52S. Paktinat Mehdiabadi,52B. Safarzadeh,52,y
M. Zeinali,52M. Abbrescia,53a,53bL. Barbone,53a,53bC. Calabria,53a,53b,fS. S. Chhibra,53a,53bA. Colaleo,53a D. Creanza,53a,53cN. De Filippis,53a,53c,fM. De Palma,53a,53bL. Fiore,53aG. Iaselli,53a,53cG. Maggi,53a,53c
M. Maggi,53aB. Marangelli,53a,53bS. My,53a,53cS. Nuzzo,53a,53bN. Pacifico,53a,53bA. Pompili,53a,53b G. Pugliese,53a,53cG. Selvaggi,53a,53bL. Silvestris,53aG. Singh,53a,53bR. Venditti,53a,53bG. Zito,53aG. Abbiendi,54a
A. C. Benvenuti,54aD. Bonacorsi,54a,54bS. Braibant-Giacomelli,54a,54bL. Brigliadori,54a,54bP. Capiluppi,54a,54b A. Castro,54a,54bF. R. Cavallo,54aM. Cuffiani,54a,54bG. M. Dallavalle,54aF. Fabbri,54aA. Fanfani,54a,54b
D. Fasanella,54a,54b,fP. Giacomelli,54aC. Grandi,54aL. Guiducci,54a,54bS. Marcellini,54aG. Masetti,54a M. Meneghelli,54a,54b,fA. Montanari,54aF. L. Navarria,54a,54bF. Odorici,54aA. Perrotta,54aF. Primavera,54a,54b A. M. Rossi,54a,54bT. Rovelli,54a,54bG. P. Siroli,54a,54bR. Travaglini,54a,54bS. Albergo,55a,55bG. Cappello,55a,55b
M. Chiorboli,55a,55bS. Costa,55a,55bR. Potenza,55a,55bA. Tricomi,55a,55bC. Tuve,55a,55bG. Barbagli,56a V. Ciulli,56a,56bC. Civinini,56aR. D’Alessandro,56a,56bE. Focardi,56a,56bS. Frosali,56a,56bE. Gallo,56aS. Gonzi,56a,56b M. Meschini,56aS. Paoletti,56aG. Sguazzoni,56aA. Tropiano,56a,56bL. Benussi,57S. Bianco,57S. Colafranceschi,57,z F. Fabbri,57D. Piccolo,57P. Fabbricatore,58aR. Musenich,58aS. Tosi,58a,58bA. Benaglia,59a,59bF. De Guio,59a,59b
L. Di Matteo,59a,59b,fS. Fiorendi,59a,59bS. Gennai,59a,fA. Ghezzi,59a,59bS. Malvezzi,59aR. A. Manzoni,59a,59b A. Martelli,59a,59bA. Massironi,59a,59b,fD. Menasce,59aL. Moroni,59aM. Paganoni,59a,59bD. Pedrini,59a S. Ragazzi,59a,59bN. Redaelli,59aS. Sala,59aT. Tabarelli de Fatis,59a,59bS. Buontempo,60aC. A. Carrillo Montoya,60a
N. Cavallo,60a,aaA. De Cosa,60a,60b,fO. Dogangun,60a,60bF. Fabozzi,60a,aaA. O. M. Iorio,60a,60bL. Lista,60a S. Meola,60a,bbM. Merola,60aP. Paolucci,60a,fP. Azzi,61aN. Bacchetta,61a,fD. Bisello,61a,61bA. Branca,61a,f
R. Carlin,61a,61bP. Checchia,61aT. Dorigo,61aF. Gasparini,61a,61bU. Gasparini,61a,61bA. Gozzelino,61a K. Kanishchev,61a,61cS. Lacaprara,61aI. Lazzizzera,61a,61cM. Margoni,61a,61bA. T. Meneguzzo,61a,61b J. Pazzini,61a,61bN. Pozzobon,61a,61bP. Ronchese,61a,61bF. Simonetto,61a,61bE. Torassa,61aM. Tosi,61a,61b
C. Riccardi,62a,62bP. Torre,62a,62bP. Vitulo,62a,62bM. Biasini,63a,63bG. M. Bilei,63aL. Fano`,63a,63bP. Lariccia,63a,63b G. Mantovani,63a,63bM. Menichelli,63aA. Nappi,63a,63b,aF. Romeo,63a,63bA. Saha,63aA. Santocchia,63a,63b A. Spiezia,63a,63bS. Taroni,63a,63bP. Azzurri,64a,64cG. Bagliesi,64aT. Boccali,64aG. Broccolo,64a,64cR. Castaldi,64a
R. T. D’Agnolo,64a,64c,fR. Dell’Orso,64aF. Fiori,64a,64b,fL. Foa`,64a,64cA. Giassi,64aA. Kraan,64aF. Ligabue,64a,64c T. Lomtadze,64aL. Martini,64a,ccA. Messineo,64a,64bF. Palla,64aA. Rizzi,64a,64bA. T. Serban,64a,ddP. Spagnolo,64a P. Squillacioti,64a,fR. Tenchini,64aG. Tonelli,64a,64bA. Venturi,64aP. G. Verdini,64aL. Barone,65a,65bF. Cavallari,65a D. Del Re,65a,65bM. Diemoz,65aC. Fanelli,65aM. Grassi,65a,65b,fE. Longo,65a,65bP. Meridiani,65a,fF. Micheli,65a,65b
S. Nourbakhsh,65a,65bG. Organtini,65a,65bR. Paramatti,65aS. Rahatlou,65a,65bM. Sigamani,65aL. Soffi,65a,65b N. Amapane,66a,66bR. Arcidiacono,66a,66cS. Argiro,66a,66bM. Arneodo,66a,66cC. Biino,66aN. Cartiglia,66a M. Costa,66a,66bN. Demaria,66aC. Mariotti,66a,fS. Maselli,66aE. Migliore,66a,66bV. Monaco,66a,66bM. Musich,66a,f
M. M. Obertino,66a,66cN. Pastrone,66aM. Pelliccioni,66aA. Potenza,66a,66bA. Romero,66a,66bM. Ruspa,66a,66c R. Sacchi,66a,66bA. Solano,66a,66bA. Staiano,66aA. Vilela Pereira,66aS. Belforte,67aV. Candelise,67a,67b M. Casarsa,67aF. Cossutti,67aG. Della Ricca,67a,67bB. Gobbo,67aM. Marone,67a,67b,fD. Montanino,67a,67b,f A. Penzo,67aA. Schizzi,67a,67bS. G. Heo,68T. Y. Kim,68S. K. Nam,68S. Chang,69D. H. Kim,69G. N. Kim,69 D. J. Kong,69H. Park,69S. R. Ro,69D. C. Son,69T. Son,69J. Y. Kim,70Zero J. Kim,70S. Song,70S. Choi,71D. Gyun,71 B. Hong,71M. Jo,71H. Kim,71T. J. Kim,71K. S. Lee,71D. H. Moon,71S. K. Park,71M. Choi,72J. H. Kim,72C. Park,72 I. C. Park,72S. Park,72G. Ryu,72Y. Cho,73Y. Choi,73Y. K. Choi,73J. Goh,73M. S. Kim,73E. Kwon,73B. Lee,73
J. Lee,73S. Lee,73H. Seo,73I. Yu,73M. J. Bilinskas,74I. Grigelionis,74M. Janulis,74A. Juodagalvis,74 H. Castilla-Valdez,75E. De La Cruz-Burelo,75I. Heredia-de La Cruz,75R. Lopez-Fernandez,75R. Magan˜a Villalba,75
J. Martı´nez-Ortega,75A. Sa´nchez-Herna´ndez,75L. M. Villasenor-Cendejas,75S. Carrillo Moreno,76 F. Vazquez Valencia,76H. A. Salazar Ibarguen,77E. Casimiro Linares,78A. Morelos Pineda,78M. A. Reyes-Santos,78
D. Krofcheck,79A. J. Bell,80P. H. Butler,80R. Doesburg,80S. Reucroft,80H. Silverwood,80M. Ahmad,81 M. H. Ansari,81M. I. Asghar,81J. Butt,81H. R. Hoorani,81S. Khalid,81W. A. Khan,81T. Khurshid,81S. Qazi,81 M. A. Shah,81M. Shoaib,81H. Bialkowska,82B. Boimska,82T. Frueboes,82R. Gokieli,82M. Go´rski,82M. Kazana,82
K. Nawrocki,82K. Romanowska-Rybinska,82M. Szleper,82G. Wrochna,82P. Zalewski,82G. Brona,83 K. Bunkowski,83M. Cwiok,83W. Dominik,83K. Doroba,83A. Kalinowski,83M. Konecki,83J. Krolikowski,83
N. Almeida,84P. Bargassa,84A. David,84P. Faccioli,84P. G. Ferreira Parracho,84M. Gallinaro,84J. Seixas,84 J. Varela,84P. Vischia,84I. Belotelov,85P. Bunin,85M. Gavrilenko,85I. Golutvin,85I. Gorbunov,85A. Kamenev,85 V. Karjavin,85G. Kozlov,85A. Lanev,85A. Malakhov,85P. Moisenz,85V. Palichik,85V. Perelygin,85S. Shmatov,85 V. Smirnov,85A. Volodko,85A. Zarubin,85S. Evstyukhin,86V. Golovtsov,86Y. Ivanov,86V. Kim,86P. Levchenko,86 V. Murzin,86V. Oreshkin,86I. Smirnov,86V. Sulimov,86L. Uvarov,86S. Vavilov,86A. Vorobyev,86An. Vorobyev,86
Yu. Andreev,87A. Dermenev,87S. Gninenko,87N. Golubev,87M. Kirsanov,87N. Krasnikov,87V. Matveev,87 A. Pashenkov,87D. Tlisov,87A. Toropin,87V. Epshteyn,88M. Erofeeva,88V. Gavrilov,88M. Kossov,88 N. Lychkovskaya,88V. Popov,88G. Safronov,88S. Semenov,88V. Stolin,88E. Vlasov,88A. Zhokin,88A. Belyaev,89 E. Boos,89V. Bunichev,89M. Dubinin,89,eL. Dudko,89A. Gribushin,89V. Klyukhin,89O. Kodolova,89I. Lokhtin,89
A. Markina,89S. Obraztsov,89M. Perfilov,89S. Petrushanko,89A. Popov,89L. Sarycheva,89,aV. Savrin,89 A. Snigirev,89V. Andreev,90M. Azarkin,90I. Dremin,90M. Kirakosyan,90A. Leonidov,90G. Mesyats,90 S. V. Rusakov,90A. Vinogradov,90I. Azhgirey,91I. Bayshev,91S. Bitioukov,91V. Grishin,91,fV. Kachanov,91 D. Konstantinov,91V. Krychkine,91V. Petrov,91R. Ryutin,91A. Sobol,91L. Tourtchanovitch,91S. Troshin,91 N. Tyurin,91A. Uzunian,91A. Volkov,91P. Adzic,92,eeM. Djordjevic,92M. Ekmedzic,92D. Krpic,92,eeJ. Milosevic,92
M. Aguilar-Benitez,93J. Alcaraz Maestre,93P. Arce,93C. Battilana,93E. Calvo,93M. Cerrada,93 M. Chamizo Llatas,93N. Colino,93B. De La Cruz,93A. Delgado Peris,93D. Domı´nguez Va´zquez,93 C. Fernandez Bedoya,93J. P. Ferna´ndez Ramos,93A. Ferrando,93J. Flix,93M. C. Fouz,93P. Garcia-Abia,93
O. Gonzalez Lopez,93S. Goy Lopez,93J. M. Hernandez,93M. I. Josa,93G. Merino,93J. Puerta Pelayo,93 A. Quintario Olmeda,93I. Redondo,93L. Romero,93J. Santaolalla,93M. S. Soares,93C. Willmott,93C. Albajar,94
G. Codispoti,94J. F. de Troco´niz,94H. Brun,95J. Cuevas,95J. Fernandez Menendez,95S. Folgueras,95 I. Gonzalez Caballero,95L. Lloret Iglesias,95J. Piedra Gomez,95J. A. Brochero Cifuentes,96I. J. Cabrillo,96
D. Barney,97J. F. Benitez,97C. Bernet,97,gG. Bianchi,97P. Bloch,97A. Bocci,97A. Bonato,97C. Botta,97 H. Breuker,97T. Camporesi,97G. Cerminara,97T. Christiansen,97J. A. Coarasa Perez,97D. D’Enterria,97 A. Dabrowski,97A. De Roeck,97S. Di Guida,97M. Dobson,97N. Dupont-Sagorin,97A. Elliott-Peisert,97B. Frisch,97 W. Funk,97G. Georgiou,97M. Giffels,97D. Gigi,97K. Gill,97D. Giordano,97M. Girone,97M. Giunta,97F. Glege,97 R. Gomez-Reino Garrido,97P. Govoni,97S. Gowdy,97R. Guida,97M. Hansen,97P. Harris,97C. Hartl,97J. Harvey,97 B. Hegner,97A. Hinzmann,97V. Innocente,97P. Janot,97K. Kaadze,97E. Karavakis,97K. Kousouris,97P. Lecoq,97
Y.-J. Lee,97P. Lenzi,97C. Lourenc¸o,97N. Magini,97T. Ma¨ki,97M. Malberti,97L. Malgeri,97M. Mannelli,97 L. Masetti,97F. Meijers,97S. Mersi,97E. Meschi,97R. Moser,97M. U. Mozer,97M. Mulders,97P. Musella,97 E. Nesvold,97T. Orimoto,97L. Orsini,97E. Palencia Cortezon,97E. Perez,97L. Perrozzi,97A. Petrilli,97A. Pfeiffer,97
M. Pierini,97M. Pimia¨,97D. Piparo,97G. Polese,97L. Quertenmont,97A. Racz,97W. Reece,97
J. Rodrigues Antunes,97G. Rolandi,97,ggC. Rovelli,97,hhM. Rovere,97H. Sakulin,97F. Santanastasio,97C. Scha¨fer,97 C. Schwick,97I. Segoni,97S. Sekmen,97A. Sharma,97P. Siegrist,97P. Silva,97M. Simon,97P. Sphicas,97,iiD. Spiga,97 A. Tsirou,97G. I. Veres,97,tJ. R. Vlimant,97H. K. Wo¨hri,97S. D. Worm,97,jjW. D. Zeuner,97W. Bertl,98K. Deiters,98
W. Erdmann,98K. Gabathuler,98R. Horisberger,98Q. Ingram,98H. C. Kaestli,98S. Ko¨nig,98D. Kotlinski,98 U. Langenegger,98F. Meier,98D. Renker,98T. Rohe,98L. Ba¨ni,99P. Bortignon,99M. A. Buchmann,99B. Casal,99
N. Chanon,99A. Deisher,99G. Dissertori,99M. Dittmar,99M. Donega`,99M. Du¨nser,99J. Eugster,99 K. Freudenreich,99C. Grab,99D. Hits,99P. Lecomte,99W. Lustermann,99A. C. Marini,99
P. Martinez Ruiz del Arbol,99N. Mohr,99F. Moortgat,99C. Na¨geli,99,kkP. Nef,99F. Nessi-Tedaldi,99F. Pandolfi,99 L. Pape,99F. Pauss,99M. Peruzzi,99F. J. Ronga,99M. Rossini,99L. Sala,99A. K. Sanchez,99A. Starodumov,99,ll B. Stieger,99M. Takahashi,99L. Tauscher,99,aA. Thea,99K. Theofilatos,99D. Treille,99C. Urscheler,99R. Wallny,99 H. A. Weber,99L. Wehrli,99C. Amsler,100,mmV. Chiochia,100S. De Visscher,100C. Favaro,100M. Ivova Rikova,100 B. Millan Mejias,100P. Otiougova,100P. Robmann,100H. Snoek,100S. Tupputi,100M. Verzetti,100Y. H. Chang,101
K. H. Chen,101C. M. Kuo,101S. W. Li,101W. Lin,101Z. K. Liu,101Y. J. Lu,101D. Mekterovic,101A. P. Singh,101 R. Volpe,101S. S. Yu,101P. Bartalini,102P. Chang,102Y. H. Chang,102Y. W. Chang,102Y. Chao,102K. F. Chen,102 C. Dietz,102U. Grundler,102W.-S. Hou,102Y. Hsiung,102K. Y. Kao,102Y. J. Lei,102R.-S. Lu,102D. Majumder,102
E. Petrakou,102X. Shi,102J. G. Shiu,102Y. M. Tzeng,102X. Wan,102M. Wang,102B. Asavapibhop,103 N. Srimanobhas,103A. Adiguzel,104M. N. Bakirci,104,nnS. Cerci,104,ooC. Dozen,104I. Dumanoglu,104E. Eskut,104
S. Girgis,104G. Gokbulut,104E. Gurpinar,104I. Hos,104E. E. Kangal,104T. Karaman,104G. Karapinar,104,pp A. Kayis Topaksu,104G. Onengut,104K. Ozdemir,104S. Ozturk,104,qqA. Polatoz,104K. Sogut,104,rr D. Sunar Cerci,104,ooB. Tali,104,ooH. Topakli,104,nnL. N. Vergili,104M. Vergili,104I. V. Akin,105T. Aliev,105 B. Bilin,105S. Bilmis,105M. Deniz,105H. Gamsizkan,105A. M. Guler,105K. Ocalan,105A. Ozpineci,105M. Serin,105 R. Sever,105U. E. Surat,105M. Yalvac,105E. Yildirim,105M. Zeyrek,105E. Gu¨lmez,106B. Isildak,106,ssM. Kaya,106,tt O. Kaya,106,ttS. Ozkorucuklu,106,uuN. Sonmez,106,vvK. Cankocak,107L. Levchuk,108J. J. Brooke,109E. Clement,109
D. Cussans,109H. Flacher,109R. Frazier,109J. Goldstein,109M. Grimes,109G. P. Heath,109H. F. Heath,109 L. Kreczko,109S. Metson,109D. M. Newbold,109,jjK. Nirunpong,109A. Poll,109S. Senkin,109V. J. Smith,109 T. Williams,109L. Basso,110,wwK. W. Bell,110A. Belyaev,110,wwC. Brew,110R. M. Brown,110D. J. A. Cockerill,110
J. A. Coughlan,110K. Harder,110S. Harper,110J. Jackson,110B. W. Kennedy,110E. Olaiya,110D. Petyt,110 B. C. Radburn-Smith,110C. H. Shepherd-Themistocleous,110I. R. Tomalin,110W. J. Womersley,110R. Bainbridge,111
G. Ball,111R. Beuselinck,111O. Buchmuller,111D. Colling,111N. Cripps,111M. Cutajar,111P. Dauncey,111 G. Davies,111M. Della Negra,111W. Ferguson,111J. Fulcher,111D. Futyan,111A. Gilbert,111A. Guneratne Bryer,111
G. Hall,111Z. Hatherell,111J. Hays,111G. Iles,111M. Jarvis,111G. Karapostoli,111L. Lyons,111A.-M. Magnan,111 J. Marrouche,111B. Mathias,111R. Nandi,111J. Nash,111A. Nikitenko,111,llA. Papageorgiou,111J. Pela,111 M. Pesaresi,111K. Petridis,111M. Pioppi,111,xxD. M. Raymond,111S. Rogerson,111A. Rose,111M. J. Ryan,111
C. Seez,111P. Sharp,111,aA. Sparrow,111M. Stoye,111A. Tapper,111M. Vazquez Acosta,111T. Virdee,111 S. Wakefield,111N. Wardle,111T. Whyntie,111M. Chadwick,112J. E. Cole,112P. R. Hobson,112A. Khan,112 P. Kyberd,112D. Leggat,112D. Leslie,112W. Martin,112I. D. Reid,112P. Symonds,112L. Teodorescu,112M. Turner,112
K. Hatakeyama,113H. Liu,113T. Scarborough,113O. Charaf,114C. Henderson,114P. Rumerio,114A. Avetisyan,115 T. Bose,115C. Fantasia,115A. Heister,115J. St. John,115P. Lawson,115D. Lazic,115J. Rohlf,115D. Sperka,115 L. Sulak,115J. Alimena,116S. Bhattacharya,116D. Cutts,116Z. Demiragli,116A. Ferapontov,116A. Garabedian,116 U. Heintz,116S. Jabeen,116G. Kukartsev,116E. Laird,116G. Landsberg,116M. Luk,116M. Narain,116D. Nguyen,116
M. Calderon De La Barca Sanchez,117S. Chauhan,117M. Chertok,117J. Conway,117R. Conway,117P. T. Cox,117 J. Dolen,117R. Erbacher,117M. Gardner,117R. Houtz,117W. Ko,117A. Kopecky,117R. Lander,117O. Mall,117 T. Miceli,117D. Pellett,117F. Ricci-tam,117B. Rutherford,117M. Searle,117J. Smith,117M. Squires,117M. Tripathi,117 R. Vasquez Sierra,117R. Yohay,117V. Andreev,118D. Cline,118R. Cousins,118J. Duris,118S. Erhan,118P. Everaerts,118 C. Farrell,118J. Hauser,118M. Ignatenko,118C. Jarvis,118C. Plager,118G. Rakness,118P. Schlein,118,aP. Traczyk,118 V. Valuev,118M. Weber,118J. Babb,119R. Clare,119M. E. Dinardo,119J. Ellison,119J. W. Gary,119F. Giordano,119
G. Hanson,119G. Y. Jeng,119,yyH. Liu,119O. R. Long,119A. Luthra,119H. Nguyen,119S. Paramesvaran,119 J. Sturdy,119S. Sumowidagdo,119R. Wilken,119S. Wimpenny,119W. Andrews,120J. G. Branson,120G. B. Cerati,120
S. Cittolin,120D. Evans,120F. Golf,120A. Holzner,120R. Kelley,120M. Lebourgeois,120J. Letts,120I. Macneill,120 B. Mangano,120S. Padhi,120C. Palmer,120G. Petrucciani,120M. Pieri,120M. Sani,120V. Sharma,120S. Simon,120 E. Sudano,120M. Tadel,120Y. Tu,120A. Vartak,120S. Wasserbaech,120,zzF. Wu¨rthwein,120A. Yagil,120J. Yoo,120 D. Barge,121R. Bellan,121C. Campagnari,121M. D’Alfonso,121T. Danielson,121K. Flowers,121P. Geffert,121
J. Incandela,121C. Justus,121P. Kalavase,121S. A. Koay,121D. Kovalskyi,121V. Krutelyov,121S. Lowette,121 N. Mccoll,121V. Pavlunin,121F. Rebassoo,121J. Ribnik,121J. Richman,121R. Rossin,121D. Stuart,121W. To,121 C. West,121A. Apresyan,122A. Bornheim,122Y. Chen,122E. Di Marco,122J. Duarte,122M. Gataullin,122Y. Ma,122
A. Mott,122H. B. Newman,122C. Rogan,122M. Spiropulu,122V. Timciuc,122J. Veverka,122R. Wilkinson,122 S. Xie,122Y. Yang,122R. Y. Zhu,122B. Akgun,123V. Azzolini,123A. Calamba,123R. Carroll,123T. Ferguson,123 Y. Iiyama,123D. W. Jang,123Y. F. Liu,123M. Paulini,123H. Vogel,123I. Vorobiev,123J. P. Cumalat,124B. R. Drell,124
W. T. Ford,124A. Gaz,124E. Luiggi Lopez,124J. G. Smith,124K. Stenson,124K. A. Ulmer,124S. R. Wagner,124 J. Alexander,125A. Chatterjee,125N. Eggert,125L. K. Gibbons,125B. Heltsley,125A. Khukhunaishvili,125B. Kreis,125
N. Mirman,125G. Nicolas Kaufman,125J. R. Patterson,125A. Ryd,125E. Salvati,125W. Sun,125W. D. Teo,125 J. Thom,125J. Thompson,125J. Tucker,125J. Vaughan,125Y. Weng,125L. Winstrom,125P. Wittich,125D. Winn,126 S. Abdullin,127M. Albrow,127J. Anderson,127L. A. T. Bauerdick,127A. Beretvas,127J. Berryhill,127P. C. Bhat,127 I. Bloch,127K. Burkett,127J. N. Butler,127V. Chetluru,127H. W. K. Cheung,127F. Chlebana,127V. D. Elvira,127 I. Fisk,127J. Freeman,127Y. Gao,127D. Green,127O. Gutsche,127J. Hanlon,127R. M. Harris,127J. Hirschauer,127
B. Hooberman,127S. Jindariani,127M. Johnson,127U. Joshi,127B. Kilminster,127B. Klima,127S. Kunori,127 S. Kwan,127C. Leonidopoulos,127J. Linacre,127D. Lincoln,127R. Lipton,127J. Lykken,127K. Maeshima,127 J. M. Marraffino,127S. Maruyama,127D. Mason,127P. McBride,127K. Mishra,127S. Mrenna,127Y. Musienko,127,aaa
C. Newman-Holmes,127V. O’Dell,127O. Prokofyev,127E. Sexton-Kennedy,127S. Sharma,127W. J. Spalding,127 L. Spiegel,127L. Taylor,127S. Tkaczyk,127N. V. Tran,127L. Uplegger,127E. W. Vaandering,127R. Vidal,127 J. Whitmore,127W. Wu,127F. Yang,127F. Yumiceva,127J. C. Yun,127D. Acosta,128P. Avery,128D. Bourilkov,128
M. Chen,128T. Cheng,128S. Das,128M. De Gruttola,128G. P. Di Giovanni,128D. Dobur,128A. Drozdetskiy,128 R. D. Field,128M. Fisher,128Y. Fu,128I. K. Furic,128J. Gartner,128J. Hugon,128B. Kim,128J. Konigsberg,128
A. Korytov,128A. Kropivnitskaya,128T. Kypreos,128J. F. Low,128K. Matchev,128P. Milenovic,128,bbb G. Mitselmakher,128L. Muniz,128M. Park,128R. Remington,128A. Rinkevicius,128P. Sellers,128N. Skhirtladze,128
M. Snowball,128J. Yelton,128M. Zakaria,128V. Gaultney,129S. Hewamanage,129L. M. Lebolo,129S. Linn,129 P. Markowitz,129G. Martinez,129J. L. Rodriguez,129T. Adams,130A. Askew,130J. Bochenek,130J. Chen,130 B. Diamond,130S. V. Gleyzer,130J. Haas,130S. Hagopian,130V. Hagopian,130M. Jenkins,130K. F. Johnson,130
H. Prosper,130V. Veeraraghavan,130M. Weinberg,130M. M. Baarmand,131B. Dorney,131M. Hohlmann,131 H. Kalakhety,131I. Vodopiyanov,131M. R. Adams,132I. M. Anghel,132L. Apanasevich,132Y. Bai,132 V. E. Bazterra,132R. R. Betts,132I. Bucinskaite,132J. Callner,132R. Cavanaugh,132O. Evdokimov,132L. Gauthier,132
C. E. Gerber,132D. J. Hofman,132S. Khalatyan,132F. Lacroix,132M. Malek,132C. O’Brien,132C. Silkworth,132 D. Strom,132P. Turner,132N. Varelas,132U. Akgun,133E. A. Albayrak,133B. Bilki,133,cccW. Clarida,133F. Duru,133
J.-P. Merlo,133H. Mermerkaya,133,dddA. Mestvirishvili,133A. Moeller,133J. Nachtman,133C. R. Newsom,133 E. Norbeck,133Y. Onel,133F. Ozok,133,eeeS. Sen,133P. Tan,133E. Tiras,133J. Wetzel,133T. Yetkin,133K. Yi,133 B. A. Barnett,134B. Blumenfeld,134S. Bolognesi,134D. Fehling,134G. Giurgiu,134A. V. Gritsan,134Z. J. Guo,134
M. Kirn,138T. Kolberg,138Y. Lu,138M. Marionneau,138A. C. Mignerey,138K. Pedro,138A. Skuja,138J. Temple,138 M. B. Tonjes,138S. C. Tonwar,138E. Twedt,138A. Apyan,139G. Bauer,139J. Bendavid,139W. Busza,139E. Butz,139
I. A. Cali,139M. Chan,139V. Dutta,139G. Gomez Ceballos,139M. Goncharov,139K. A. Hahn,139Y. Kim,139 M. Klute,139K. Krajczar,139,fffP. D. Luckey,139T. Ma,139S. Nahn,139C. Paus,139D. Ralph,139C. Roland,139 G. Roland,139M. Rudolph,139G. S. F. Stephans,139F. Sto¨ckli,139K. Sumorok,139K. Sung,139D. Velicanu,139 E. A. Wenger,139R. Wolf,139B. Wyslouch,139M. Yang,139Y. Yilmaz,139A. S. Yoon,139M. Zanetti,139S. I. Cooper,140
B. Dahmes,140A. De Benedetti,140G. Franzoni,140A. Gude,140S. C. Kao,140K. Klapoetke,140Y. Kubota,140 J. Mans,140N. Pastika,140R. Rusack,140M. Sasseville,140A. Singovsky,140N. Tambe,140J. Turkewitz,140 L. M. Cremaldi,141R. Kroeger,141L. Perera,141R. Rahmat,141D. A. Sanders,141E. Avdeeva,142K. Bloom,142
S. Bose,142D. R. Claes,142A. Dominguez,142M. Eads,142J. Keller,142I. Kravchenko,142J. Lazo-Flores,142 H. Malbouisson,142S. Malik,142G. R. Snow,142A. Godshalk,143I. Iashvili,143S. Jain,143A. Kharchilava,143
A. Kumar,143G. Alverson,144E. Barberis,144D. Baumgartel,144M. Chasco,144J. Haley,144D. Nash,144 D. Trocino,144D. Wood,144J. Zhang,144A. Anastassov,145A. Kubik,145L. Lusito,145N. Mucia,145N. Odell,145 R. A. Ofierzynski,145B. Pollack,145A. Pozdnyakov,145M. Schmitt,145S. Stoynev,145M. Velasco,145S. Won,145 L. Antonelli,146D. Berry,146A. Brinkerhoff,146K. M. Chan,146M. Hildreth,146C. Jessop,146D. J. Karmgard,146 J. Kolb,146K. Lannon,146W. Luo,146S. Lynch,146N. Marinelli,146D. M. Morse,146T. Pearson,146M. Planer,146 R. Ruchti,146J. Slaunwhite,146N. Valls,146M. Wayne,146M. Wolf,146B. Bylsma,147L. S. Durkin,147C. Hill,147
R. Hughes,147K. Kotov,147T. Y. Ling,147D. Puigh,147M. Rodenburg,147C. Vuosalo,147G. Williams,147 B. L. Winer,147N. Adam,148E. Berry,148P. Elmer,148D. Gerbaudo,148V. Halyo,148P. Hebda,148J. Hegeman,148 A. Hunt,148P. Jindal,148D. Lopes Pegna,148P. Lujan,148D. Marlow,148T. Medvedeva,148M. Mooney,148J. Olsen,148
P. Piroue´,148X. Quan,148A. Raval,148B. Safdi,148H. Saka,148D. Stickland,148C. Tully,148J. S. Werner,148 A. Zuranski,148E. Brownson,149A. Lopez,149H. Mendez,149J. E. Ramirez Vargas,149E. Alagoz,150V. E. Barnes,150 D. Benedetti,150G. Bolla,150D. Bortoletto,150M. De Mattia,150A. Everett,150Z. Hu,150M. Jones,150O. Koybasi,150 M. Kress,150A. T. Laasanen,150N. Leonardo,150V. Maroussov,150P. Merkel,150D. H. Miller,150N. Neumeister,150 I. Shipsey,150D. Silvers,150A. Svyatkovskiy,150M. Vidal Marono,150H. D. Yoo,150J. Zablocki,150Y. Zheng,150 S. Guragain,151N. Parashar,151A. Adair,152C. Boulahouache,152K. M. Ecklund,152F. J. M. Geurts,152W. Li,152 B. P. Padley,152R. Redjimi,152J. Roberts,152J. Zabel,152B. Betchart,153A. Bodek,153Y. S. Chung,153R. Covarelli,153
P. de Barbaro,153R. Demina,153Y. Eshaq,153T. Ferbel,153A. Garcia-Bellido,153P. Goldenzweig,153J. Han,153 A. Harel,153D. C. Miner,153D. Vishnevskiy,153M. Zielinski,153A. Bhatti,154R. Ciesielski,154L. Demortier,154
K. Goulianos,154G. Lungu,154S. Malik,154C. Mesropian,154S. Arora,155A. Barker,155J. P. Chou,155 C. Contreras-Campana,155E. Contreras-Campana,155D. Duggan,155D. Ferencek,155Y. Gershtein,155R. Gray,155 E. Halkiadakis,155D. Hidas,155A. Lath,155S. Panwalkar,155M. Park,155R. Patel,155V. Rekovic,155J. Robles,155 K. Rose,155S. Salur,155S. Schnetzer,155C. Seitz,155S. Somalwar,155R. Stone,155S. Thomas,155M. Walker,155
G. Cerizza,156M. Hollingsworth,156S. Spanier,156Z. C. Yang,156A. York,156R. Eusebi,157W. Flanagan,157 J. Gilmore,157T. Kamon,157,gggV. Khotilovich,157R. Montalvo,157I. Osipenkov,157Y. Pakhotin,157A. Perloff,157 J. Roe,157A. Safonov,157T. Sakuma,157S. Sengupta,157I. Suarez,157A. Tatarinov,157D. Toback,157N. Akchurin,158
J. Damgov,158C. Dragoiu,158P. R. Dudero,158C. Jeong,158K. Kovitanggoon,158S. W. Lee,158T. Libeiro,158 Y. Roh,158I. Volobouev,158E. Appelt,159A. G. Delannoy,159C. Florez,159S. Greene,159A. Gurrola,159W. Johns,159
P. Kurt,159C. Maguire,159A. Melo,159M. Sharma,159P. Sheldon,159B. Snook,159S. Tuo,159J. Velkovska,159 M. W. Arenton,160M. Balazs,160S. Boutle,160B. Cox,160B. Francis,160J. Goodell,160R. Hirosky,160
A. Ledovskoy,160C. Lin,160C. Neu,160J. Wood,160S. Gollapinni,161R. Harr,161P. E. Karchin,161 C. Kottachchi Kankanamge Don,161P. Lamichhane,161A. Sakharov,161M. Anderson,162D. Belknap,162 L. Borrello,162D. Carlsmith,162M. Cepeda,162S. Dasu,162E. Friis,162L. Gray,162K. S. Grogg,162M. Grothe,162
R. Hall-Wilton,162M. Herndon,162A. Herve´,162P. Klabbers,162J. Klukas,162A. Lanaro,162C. Lazaridis,162 J. Leonard,162R. Loveless,162A. Mohapatra,162I. Ojalvo,162F. Palmonari,162G. A. Pierro,162I. Ross,162A. Savin,162
W. H. Smith,162and J. Swanson162
(CMS Collaboration)
1Yerevan Physics Institute, Yerevan, Armenia
2Institut fu¨r Hochenergiephysik der OeAW, Wien, Austria
4Universiteit Antwerpen, Antwerpen, Belgium
5Vrije Universiteit Brussel, Brussel, Belgium
6Universite´ Libre de Bruxelles, Bruxelles, Belgium
7Ghent University, Ghent, Belgium
8Universite´ Catholique de Louvain, Louvain-la-Neuve, Belgium
9Universite´ de Mons, Mons, Belgium
10
Centro Brasileiro de Pesquisas Fisicas, Rio de Janeiro, Brazil
11Universidade do Estado do Rio de Janeiro, Rio de Janeiro, Brazil
12
Instituto de Fisica Teorica, Universidade Estadual Paulista, Sao Paulo, Brazil
13Institute for Nuclear Research and Nuclear Energy, Sofia, Bulgaria
14University of Sofia, Sofia, Bulgaria
15Institute of High Energy Physics, Beijing, China
16State Key Lab. of Nucl. Phys. and Tech., Peking University, Beijing, China
17Universidad de Los Andes, Bogota, Colombia
18Technical University of Split, Split, Croatia
19
University of Split, Split, Croatia
20Institute Rudjer Boskovic, Zagreb, Croatia
21University of Cyprus, Nicosia, Cyprus
22Charles University, Prague, Czech Republic
23Academy of Scientific Research and Technology of the Arab Republic of Egypt,
Egyptian Network of High Energy Physics, Cairo, Egypt
24
National Institute of Chemical Physics and Biophysics, Tallinn, Estonia
25Department of Physics, University of Helsinki, Helsinki, Finland
26Helsinki Institute of Physics, Helsinki, Finland
27Lappeenranta University of Technology, Lappeenranta, Finland
28DSM/IRFU, CEA/Saclay, Gif-sur-Yvette, France
29Laboratoire Leprince-Ringuet, Ecole Polytechnique, IN2P3-CNRS, Palaiseau, France
30Institut Pluridisciplinaire Hubert Curien, Universite´ de Strasbourg,
Universite´ de Haute Alsace Mulhouse, CNRS/IN2P3, Strasbourg, France
31Centre de Calcul de l’Institut National de Physique Nucleaire et de Physique des Particules,
CNRS/IN2P3, Villeurbanne, France, Villeurbanne, France
32Universite´ de Lyon, Universite´ Claude Bernard Lyon 1, CNRS-IN2P3,
Institut de Physique Nucle´aire de Lyon, Villeurbanne, France
33E. Andronikashvili Institute of Physics, Academy of Science, Tbilisi, Georgia
34RWTH Aachen University, I. Physikalisches Institut, Aachen, Germany
35RWTH Aachen University, III. Physikalisches Institut A, Aachen, Germany
36RWTH Aachen University, III. Physikalisches Institut B, Aachen, Germany
37
Deutsches Elektronen-Synchrotron, Hamburg, Germany
38University of Hamburg, Hamburg, Germany
39
Institut fu¨r Experimentelle Kernphysik, Karlsruhe, Germany
40Institute of Nuclear Physics ‘‘Demokritos,’’ Aghia Paraskevi, Greece
41University of Athens, Athens, Greece
42University of Ioa´nnina, Ioa´nnina, Greece
43KFKI Research Institute for Particle and Nuclear Physics, Budapest, Hungary
44Institute of Nuclear Research ATOMKI, Debrecen, Hungary
45University of Debrecen, Debrecen, Hungary
46
Panjab University, Chandigarh, India
47University of Delhi, Delhi, India
48Saha Institute of Nuclear Physics, Kolkata, India
49Bhabha Atomic Research Centre, Mumbai, India
50Tata Institute of Fundamental Research-EHEP, Mumbai, India
51Tata Institute of Fundamental Research-HECR, Mumbai, India
52Institute for Research in Fundamental Sciences (IPM), Tehran, Iran
53aINFN Sezione di Bari, Bari, Italy
53bUniversita` di Bari, Bari, Italy
53c
Politecnico di Bari, Bari, Italy
54aINFN Sezione di Bologna, Bologna, Italy
54bUniversita` di Bologna, Bologna, Italy
55aINFN Sezione di Catania, Catania, Italy
55bUniversita` di Catania, Catania, Italy
56bUniversita` di Firenze, Firenze, Italy
57INFN Laboratori Nazionali di Frascati, Frascati, Italy
58aINFN Sezione di Genova, Genova, Italy
58bUniversita` di Genova, Genova, Italy
59aINFN Sezione di Milano-Bicocca, Milano, Italy
59bUniversita` di Milano-Bicocca, Milano, Italy
60a
INFN Sezione di Napoli, Napoli, Italy
60bUniversita` di Napoli ‘‘Federico II,’’ Napoli, Italy
61a
INFN Sezione di Padova, Padova, Italy
61bUniversita` di Padova, Padova, Italy
61cUniversita` di Trento (Trento), Padova, Italy
62aINFN Sezione di Pavia, Pavia, Italy
62bUniversita` di Pavia, Pavia, Italy
63aINFN Sezione di Perugia, Perugia, Italy
63bUniversita` di Perugia, Perugia, Italy
64a
INFN Sezione di Pisa, Pisa, Italy
64bUniversita` di Pisa, Pisa, Italy
64cScuola Normale Superiore di Pisa, Pisa, Italy
65aINFN Sezione di Roma, Roma, Italy
65bUniversita` di Roma ‘‘La Sapienza,’’ Roma, Italy
66aINFN Sezione di Torino, Torino, Italy
66bUniversita` di Torino, Torino, Italy
66cUniversita` del Piemonte Orientale (Novara), Torino, Italy
67aINFN Sezione di Trieste, Trieste, Italy
67b
Universita` di Trieste, Trieste, Italy
68Kangwon National University, Chunchon, Korea
69Kyungpook National University, Daegu, Korea
70Chonnam National University, Institute for Universe and Elementary Particles, Kwangju, Korea
71Korea University, Seoul, Korea
72University of Seoul, Seoul, Korea
73Sungkyunkwan University, Suwon, Korea
74
Vilnius University, Vilnius, Lithuania
75Centro de Investigacion y de Estudios Avanzados del IPN, Mexico City, Mexico
76Universidad Iberoamericana, Mexico City, Mexico
77Benemerita Universidad Autonoma de Puebla, Puebla, Mexico
78Universidad Auto´noma de San Luis Potosı´, San Luis Potosı´, Mexico
79University of Auckland, Auckland, New Zealand
80University of Canterbury, Christchurch, New Zealand
81National Centre for Physics, Quaid-I-Azam University, Islamabad, Pakistan
82National Centre for Nuclear Research, Swierk, Poland
83Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Warsaw, Poland
84Laborato´rio de Instrumentac¸a˜o e Fı´sica Experimental de Partı´culas, Lisboa, Portugal
85Joint Institute for Nuclear Research, Dubna, Russia
86Petersburg Nuclear Physics Institute, Gatchina (St. Petersburg), Russia
87Institute for Nuclear Research, Moscow, Russia
88Institute for Theoretical and Experimental Physics, Moscow, Russia
89Moscow State University, Moscow, Russia
90
P.N. Lebedev Physical Institute, Moscow, Russia
91State Research Center of Russian Federation, Institute for High Energy Physics, Protvino, Russia
92University of Belgrade, Faculty of Physics and Vinca Institute of Nuclear Sciences, Belgrade, Serbia
93Centro de Investigaciones Energe´ticas Medioambientales y Tecnolo´gicas (CIEMAT), Madrid, Spain
94Universidad Auto´noma de Madrid, Madrid, Spain
95Universidad de Oviedo, Oviedo, Spain
96Instituto de Fı´sica de Cantabria (IFCA), CSIC-Universidad de Cantabria, Santander, Spain
97CERN, European Organization for Nuclear Research, Geneva, Switzerland
98Paul Scherrer Institut, Villigen, Switzerland
99
Institute for Particle Physics, ETH Zurich, Zurich, Switzerland
100Universita¨t Zu¨rich, Zurich, Switzerland
101National Central University, Chung-Li, Taiwan
102National Taiwan University (NTU), Taipei, Taiwan
104Cukurova University, Adana, Turkey
105Middle East Technical University, Physics Department, Ankara, Turkey
106Bogazici University, Istanbul, Turkey
107Istanbul Technical University, Istanbul, Turkey
108National Scientific Center, Kharkov Institute of Physics and Technology, Kharkov, Ukraine
109University of Bristol, Bristol, United Kingdom
110
Rutherford Appleton Laboratory, Didcot, United Kingdom
111Imperial College, London, United Kingdom
112
Brunel University, Uxbridge, United Kingdom
113Baylor University, Waco, Texas, USA
114The University of Alabama, Tuscaloosa, Alabama, USA
115Boston University, Boston, Massachusetts, USA
116Brown University, Providence, Rhode Island, USA
117University of California, Davis, Davis, California, USA
118University of California, Los Angeles, Los Angeles, California, USA
119
University of California, Riverside, Riverside, California, USA
120University of California, San Diego, La Jolla, California, USA
121University of California, Santa Barbara, Santa Barbara, California, USA
122California Institute of Technology, Pasadena, California, USA
123Carnegie Mellon University, Pittsburgh, Pennsylvania, USA
124University of Colorado at Boulder, Boulder, Colorado, USA
125Cornell University, Ithaca, New York, USA
126Fairfield University, Fairfield, Connecticut, USA
127Fermi National Accelerator Laboratory, Batavia, Illinois, USA
128
University of Florida, Gainesville, Florida, USA
129Florida International University, Miami, Florida, USA
130Florida State University, Tallahassee, Florida, USA
131Florida Institute of Technology, Melbourne, Florida, USA
132University of Illinois at Chicago (UIC), Chicago, Illinois, USA
133The University of Iowa, Iowa City, Iowa, USA
134Johns Hopkins University, Baltimore, USA
135
The University of Kansas, Lawrence, Kansas, USA
136Kansas State University, Manhattan, Kansas, USA
137Lawrence Livermore National Laboratory, Livermore, California, USA
138University of Maryland, College Park, Maryland, USA
139Massachusetts Institute of Technology, Cambridge, Massachusetts, USA
140University of Minnesota, Minneapolis, Minnesota, USA
141University of Mississippi, Oxford, Mississippi, USA
142University of Nebraska-Lincoln, Lincoln, Nebraska, USA
143State University of New York at Buffalo, Buffalo, New York, USA
144Northeastern University, Boston, Massachusetts, USA
145Northwestern University, Evanston, Illinois, USA
146University of Notre Dame, Notre Dame, Indiana, USA
147The Ohio State University, Columbus, Ohio, USA
148Princeton University, Princeton, New Jersey, USA
149University of Puerto Rico, Mayaguez, Puerto Rico, USA
150Purdue University, West Lafayette, Indiana, USA
151
Purdue University Calumet, Hammond, Indiana, USA
152Rice University, Houston, Texas, USA
153University of Rochester, Rochester, New York, USA
154The Rockefeller University, New York, New York, USA
155Rutgers, the State University of New Jersey, Piscataway, New Jersey, USA
156University of Tennessee, Knoxville, Tennessee, USA
157Texas A&M University, College Station, Texas, USA
158Texas Tech University, Lubbock, Texas, USA
159Vanderbilt University, Nashville, Tennessee, USA
160
University of Virginia, Charlottesville, Virginia, USA
161Wayne State University, Detroit, Michigan, USA
aDeceased.
bAlso at Vienna University of Technology, Vienna, Austria.
cAlso at National Institute of Chemical Physics and Biophysics, Tallinn, Estonia. dAlso at Universidade Federal do ABC, Santo Andre, Brazil.
eAlso at California Institute of Technology, Pasadena, USA.
fAlso at CERN, European Organization for Nuclear Research, Geneva, Switzerland.
gAlso at Laboratoire Leprince-Ringuet, Ecole Polytechnique, IN2P3-CNRS, Palaiseau, France. hAlso at Suez Canal University, Suez, Egypt.
iAlso at Zewail City of Science and Technology, Zewail, Egypt. jAlso at Cairo University, Cairo, Egypt.
kAlso at Fayoum University, El-Fayoum, Egypt. lAlso at British University, Cairo, Egypt. mAlso at Ain Shams University, Cairo, Egypt.
n
Also at National Centre for Nuclear Research, Swierk, Poland. oAlso at Universite´ de Haute Alsace, Strasbourg, France. pAlso at Moscow State University, Moscow, Russia.
qAlso at Brandenburg University of Technology, Cottbus, Germany. rAlso at The University of Kansas, Lawrence, USA.
sAlso at Institute of Nuclear Research ATOMKI, Debrecen, Hungary. tAlso at Eo¨tvo¨s Lora´nd University, Budapest, Hungary.
uAlso at Tata Institute of Fundamental Research - HECR, Mumbai, India. vAlso at University of Visva-Bharati, Santiniketan, India.
wAlso at Sharif University of Technology, Tehran, Iran. xAlso at Isfahan University of Technology, Isfahan, Iran.
yAlso at Plasma Physics Research Center, Science and Research Branch, Islamic Azad University, Tehran, Iran. zAlso at Facolta` Ingegneria Universita` di Roma, Roma, Italy.
aaAlso at Universita` della Basilicata, Potenza, Italy.
bbAlso at Universita` degli Studi Guglielmo Marconi, Roma, Italy. ccAlso at Universita` degli Studi di Siena, Siena, Italy.
ddAlso at University of Bucharest, Faculty of Physics, Bucuresti-Magurele, Romania. eeAlso at Faculty of Physics of University of Belgrade, Belgrade, Serbia.
ffAlso at University of California, Los Angeles, Los Angeles, California, USA. ggAlso at Scuola Normale e Sezione dell’ INFN, Pisa, Italy.
hhAlso at INFN Sezione di Roma, Universita` di Roma ‘‘La Sapienza,’’ Roma, Italy. iiAlso at University of Athens, Athens, Greece.
jjAlso at Rutherford Appleton Laboratory, Didcot, United Kingdom. kkAlso at Paul Scherrer Institut, Villigen, Switzerland.
llAlso at Institute for Theoretical and Experimental Physics, Moscow, Russia. mmAlso at Albert Einstein Center for Fundamental Physics, Bern, Switzerland.
nnAlso at Gaziosmanpasa University, Tokat, Turkey. ooAlso at Adiyaman University, Adiyaman, Turkey. ppAlso at Izmir Institute of Technology, Izmir, Turkey. qq
Also at The University of Iowa, Iowa City, USA. rrAlso at Mersin University, Mersin, Turkey. ssAlso at Ozyegin University, Istanbul, Turkey.
ttAlso at Kafkas University, Kars, Turkey.
uuAlso at Suleyman Demirel University, Isparta, Turkey. vvAlso at Ege University, Izmir, Turkey.
wwAlso at School of Physics and Astronomy, University of Southampton, Southampton, United Kingdom. xxAlso at INFN Sezione di Perugia, Universita` di Perugia, Perugia, Italy.
yyAlso at University of Sydney, Sydney, Australia. zzAlso at Utah Valley University, Orem, USA.
aaaAlso at Institute for Nuclear Research, Moscow, Russia.
dddAlso at Erzincan University, Erzincan, Turkey.
eeeAlso at Mimar Sinan University, Istanbul, Istanbul, Turkey.
