Search for diphoton events with large missing transverse energy in 7 TeV proton-proton collisions with the ATLAS detector

Search for Diphoton Events with Large Missing Transverse Energy

in 7 TeV Proton-Proton Collisions with the ATLAS Detector

G. Aad et al.* (ATLAS Collaboration)

(Received 20 December 2010; published 23 March 2011)

A search for diphoton events with large missing transverse energy is presented. The data were collected with the ATLAS detector in proton-proton collisions atpffiffiffis¼ 7 TeV at the CERN Large Hadron Collider and correspond to an integrated luminosity of3:1 pb
1. No excess of such events is observed above the standard model background prediction. In the context of a specific model with one universal extra dimension with compactification radiusR and gravity-induced decays, values of 1=R < 729 GeV are excluded at 95% C. L., providing the most sensitive limit on this model to date.

DOI:10.1103/PhysRevLett.106.121803 PACS numbers: 13.85.Rm, 11.25.Wx

In the standard model (SM), the production in proton-proton (pp) collisions of diphoton (

) events with large missing transverse energy (Emiss_T ) is mainly due toW=Z þ

processes. Taking into account the branching ratios of W=Z decays including at least one neutrino, the cross sections are only a few femtobarns for 7 TeVpp collisions. In contrast, some new physics models predict much larger

þ Emiss

T rates. This Letter reports the first

þ EmissT search with LHC data, using data recorded with the ATLAS detector. The results are interpreted in the context of a universal extra dimension (UED) model.

UED models [1] postulate the existence of additional spatial dimensions in which all SM particles can propagate, leading to the existence for each SM particle of a series of excitations, known as a Kaluza-Klein (KK) tower. This analysis considers the case of a singleTeV
1-sized UED, with compactification radiusR. The masses of the states of successive levels in the tower are separated by 1=R. For a given KK level, the approximate mass degeneracy of the KK excitations is broken by radiative corrections [2]. The lightest KK particle (LKP) is the KK photon of the first level, denoted
. At the LHC, the main UED process would be production via the strong interaction of a pair of first-level KK quarks and/or gluons [3], which would decay via cascades involving other KK particles until reaching the LKP at the end of the decay chain. If the UED model is embedded in a larger space withN addi-tional eV
1-sized dimensions accessible only to gravity [4], the LKP could decay gravitationally via
 !
þ G [5], where G represents one of a tower of eV-spaced graviton states. With two decay chains per event, the final state would be

þ Emiss_T þ X, where Emiss_T results from

the escaping gravitons andX represents SM particles emit-ted in the cascade decays.

The UED model considered is defined by specifyingR and
, the ultraviolet cutoff used in the calculation of radiative corrections to the KK masses. This analysis treats R as a free parameter and, following the theory calculations [2], sets
such that
R ¼ 20. For 1=R ¼ 700 GeV, the masses of the first-level KK photon, quark, and gluon are 700, 815, and 865 GeV, respectively [6]. The
 mass is insensitive to
, while other KK masses change by typi-cally a few percent when varying
R in the range 10–30. The gravitational decay widths of the KK particles are set byN and M_D, the Planck scale in the (4 þ N)-dimensional theory. For the chosen values ofN ¼ 6 and M_D ¼ 5 TeV, and provided 1=R < 1 TeV, the LKP is the only KK particle to have an appreciable rate of gravitational decay. The same parameter values were used in the only previous study of this model, in which the D0 experiment excluded at 95% C. L. values of1=R < 477 GeV [7].

Monte Carlo (MC) signal samples were produced for a range of 1=R values using the implementation [6] of the UED model in PYTHIA [8] version 6.421, and using the

MC09 parameter tune [9]. The MC samples were pro-cessed through the ATLAS detector simulation [10] based on GEANT4 [11]. In addition to the two high transverse

energy (E_T) photons and large Emiss_T , the signal events typically include several high-ET jets due to the cascade decays, with theE_T spectrum of the leading jet peaking at  100 GeV for 1=R ¼ 700 GeV.

The ATLAS detector [12] is a multipurpose particle physics apparatus with a forward-backward symmetric cylindrical geometry and nearly4 solid angle coverage. ATLAS uses a Cartesian right-handed coordinate system, with the nominal collision point at the origin. The anti-clockwise beam direction defines the positivez axis, while the positive x axis points from the collision point to the center of the LHC ring and the positive y axis points upward. The angles  and  are the azimuthal and polar angles. The pseudorapidity is defined as

*Full author list given at the end of the article.

Published by American Physical Society under the terms of the Creative Commons Attribution 3.0 License. Further distribution of this work must maintain attribution to the author(s) and the published article’s title, journal citation, and DOI.

 ¼
ln½tanð=2Þ. Closest to the beam line are tracking detectors which use layers of silicon-based and straw-tube detectors, located inside a thin superconducting solenoid that provides a 2 T magnetic field, to measure the trajecto-ries of charged particles. The solenoid is surrounded by a hermetic calorimeter system. A liquid-argon (LAr) sam-pling calorimeter is divided into a central barrel calorime-ter and two end-cap calorimecalorime-ters, each housed in a separate cryostat. Fine-grained LAr electromagnetic (EM) calorim-eters, with excellent energy resolution, provide coverage forjj < 3:2. In the region jj < 2:5, the EM calorimeters are segmented into three longitudinal layers and the second layer, in which most of the EM shower energy is deposited, is divided into cells of granularity of   ¼ 0:025  0:025. A presampler, covering jj < 1:8, is used to correct for energy lost upstream of the calorimeter. An iron-scintillator tile calorimeter provides hadronic coverage in the range jj < 1:7. In the end caps (jj > 1:5), LAr hadronic calorimeters match the outer jj limits of the end-cap EM calorimeters. LAr forward calorimeters pro-vide both EM and hadronic energy measurements, and extend the coverage tojj < 4:9. Outside the calorimeters is an extensive muon system including large superconduct-ing toroidal magnets.

The reconstruction of photons is described in detail in Ref. [13]. To select photon candidates, EM calorimeter clusters were required to pass several quality criteria and to lie outside problematic calorimeter regions. Photon can-didates were required to havejj < 1:81 and to be outside the transition region1:37 < jj < 1:52 between the barrel and the end-cap calorimeters. The analysis uses a ‘‘loose’’ photon selection, which includes cuts on the energy in the hadronic calorimeter as well as on variables that require the transverse width of the shower, measured in the second EM calorimeter layer, be consistent with the narrow width ex-pected for an EM shower. The loose selection provides a high photon efficiency with modest rejection against the background from jets.

The reconstruction ofEmiss_T is based on topological calo-rimeter clusters [14] withjj < 4:5 that are seeded by any cell with energy higher than 4 times its noise level. In an iterative procedure, the cluster grows by including all neigh-boring cells with energy higher than twice the noise, plus all cells neighboring the boundary of this three-dimensional collection. Each cluster is classified as EM or hadronic, depending on its topology, and the cluster energy is cali-brated to correct for the noncompensating calorimeter re-sponse, energy losses in dead material, and out-of-cluster energies. Events reconstructed with largeEmiss_T were studied in detail with early data [15]. Rare background events with large transverse energies, unrelated to the collision and con-centrated in a few cells, due mainly to discharges and noise, have been observed. Cuts were applied to eliminate such backgrounds, rejecting less than 0.05% of the selected events while having a negligible impact on the signal efficiency.

The data sample was collected during stable beam peri-ods of 7 TeVpp collisions at the LHC, and corresponds to an integrated luminosity of3:1 pb
1. The events selected had to satisfy a trigger requiring at least one loose photon candidate with E_T > 20 GeV, and had to contain at least one reconstructed primary vertex consistent with the aver-age beam spot position and with at least three associated tracks. The trigger and vertex requirements are  99% efficient for signal MC events. The presence of multiple pp collisions within the same bunch crossing, known as ‘‘pileup,’’ can be analyzed by examiningN_vtx, the number of reconstructed primary vertices in each event. In this data sample, the average value of N_vtx was  2:1. The MC signal samples included the simulation of pileup and were weighted to match theN_vtxdistribution observed in data.

Events were retained if they had at least two photon candidates, each withE_T> 25 GeV. In addition, a photon isolation cut was applied, wherein theE_Tin a radius of 0.2 in the- space around the center of the cluster, excluding the cells belonging to the cluster in a region corresponding to 5  7 cells in    in the second layer of the EM calorimeter, had to be less than 35 GeV. This requirement had a signal efficiency greater than 95% but rejected some of the background from multijet events. An event in which each of the two photon candidates satisfied the loose photon cuts was considered a

candidate event. An independent ‘‘misidentified jet’’ control sample, enriched in events with jets misidentified as photons, was defined as those events where at least one of the photon candidates did not pass the loose photon identification. After all cuts, the

and misidentified jet samples totaled 520 and 7323 events, respectively. Figure 1 shows the E_T spectrum of the leading photon for the

candidates and for UED 1=R ¼ 700 GeV MC events; the UED spectrum extends to much higherE_T values.

The background was evaluated entirely using data. Noncollision backgrounds, such as cosmic rays and beam-halo events, are reduced to a negligible level by the

[GeV] T E 50 100 150 200 250 300 350 400 450 500 Entries / 10 GeV 1 10 2 10 -1 Ldt = 3.1 pb

∫

FIG. 1. E_T spectrum of the leading photon for the

candi-date sample and for UED1=R ¼ 700 GeV MC events (normal-ized to 100 times the leading order (LO) cross section).

selection cuts. The main background source, referred to hereafter as QCD background, arises from a mixture of SM processes including

production, and
þ jet and multi-jet events with at least one multi-jet misidentified as a photon. With the loose photon identification, it is expected that
þ jet and multijet events dominate, with only a small

contribution. The misidentified jet sample provided a model of the Emiss_T response for events with jets faking photons. The response for

events was modeled using the Emiss_T spectrum measured in a high purity sample of Z ! ee events, selected by a combination of kinematic cuts and electron identification requirements [14]. The Emiss

T spectrum forZ ! ee events, which is dominated by the calorimeter response to two genuine EM objects, was verified in MC simulations to model theEmiss_T response in SM

processes, despite their kinematic differences. As shown in Fig.2,Z ! ee events typically have somewhat lower Emiss_T values than events of the misidentified jet sample, as expected since the presence of jets faking photons should result in a broaderEmiss_T distribution. The spectrum for the

candidates, which for low Emiss_T is dominated by the QCD background with an unknown mixture of events with zero, one, and two fake photons, lies between these two samples. TheEmiss_T spectrum of the total QCD background was modeled by a weighted sum of the spectra of the Z ! ee and misidentified jet samples. The QCD background was normalized to have the same number of events as the

candidate sample in the region Emiss

T < 20 GeV, where any UED signal contribution can

be neglected. The relative contributions of theZ ! ee and misidentified jet samples were determined by fitting the QCD background shape to the Emiss_T spectrum of the

candidates in this same low Emiss_T region. The fraction attributed to

production, as modeled with the Z ! ee distribution, was determined to beð36  22Þ%. The search result is not very sensitive to the exact composition of the QCD background, and the fit error was used to determine systematic uncertainties on the background prediction.

A small additional background results from W ! ev events, which have genuine Emiss_T and which can pass the selection if the electron is misidentified as a photon and the second photon is either a real photon inW
events or a jet faking a photon inW þ jets events. A high purity sample of inclusiveW ! ev events was selected by a combination of kinematic and electron identification cuts [14]. Requiring in addition a loose photon with E
_T> 25 GeV, a ‘‘W þ
’’ sample of only 5 events was selected. Accounting for the probability for an electron to be misidentified as a loose photon, as determined using theZ ! ee sample, the total background contribution due to W ! ev events was then estimated to be only 0:4 events. Since the number of W
events was too small to measure their Emiss_T spectrum, a sample ofW þ jets events was used instead, requiring a jet reconstructed with an anti-k_Tclustering algorithm [16] with radius parameter 0.4 and Ej_T> 25 GeV. The Wð! eÞ þ jets=
background contribution was then estimated by nor-malizing theW þ jets Emiss_T spectrum to the expected total of 0:4 events, as shown on Fig.2.

Figure3shows theEmiss_T spectrum of the

candidates, superimposed on the total background prediction, as well

[GeV] miss T E 40 30 20 10 0 50 75 Entries / 5 GeV -2 10 -1 10 1 10 2 10 = 7 TeV) s Data 2010 ( Misidentified jets ee → Z γ )+jets/ ν e → W( -1 Ldt = 3.1 pb

∫

FIG. 2 (color online). Emiss_T spectra for the

candidates, for theZ ! ee and misidentified jet samples used to model the QCD background (each normalized to the number of

candidates with Emiss_T < 20 GeV), and for the Wð! eÞ þ jets=
back-ground (normalized to its expected total of  0:4 events). Variable sized bins are used, and the vertical error bars and shaded bands show the statistical errors.

[GeV] miss T E 0 4 0 3 0 2 0 1 0 50 75 150 600 Entries / 5 GeV -3 10 -2 10 -1 10 1 10 2 10 Data 2010 ( s = 7 TeV) Total background UED 1/R = 500 GeV UED 1/R = 700 GeV -1 Ldt = 3.1 pb

∫

FIG. 3 (color online). Emiss_T spectrum for the

candidates, compared to the total SM background as estimated from data. Also shown are the expected UED signals for1=R ¼ 500 GeV and 700 GeV. Variable sized bins are used, and the vertical error bars and shaded bands show the statistical errors.

as example UED signals. TableIsummarizes the number of observed

candidates, as well as the expected backgrounds and example UED signal contributions, in several Emiss_T ranges. The QCD background dominates, and falls steeply with rising Emiss_T , while the W ! ev background is very small, and flatter as a function of Emiss

T . The UED signals would peak at large values of Emiss

T . There is good agreement between the data and predicted background over the entireEmiss_T range, with no indication of an excess at highEmiss_T values.

The signal search region was chosen to be Emiss_T > 75 GeV, before looking at the data, to obtain the best sensitivity to the UED signal. In the signal region, there are zero observed events, compared to an expectation of 0:32  0:16ðstatÞþ0:37

0:10ðsystÞ background events. The sys-tematic uncertainty was derived by studying variations of the background determination, including varying within its error the

fraction determined in the fit of the QCD background, varying the definition of the misidentified jet sample, and eliminating the photon isolation cut.

The UED signal efficiency, determined from MC simulations, increases smoothly from  43% for 1=R ¼ 500 GeV to  48% for 1=R ¼ 700 GeV, with the lower efficiencies for smaller 1=R due mostly to the Emiss

T > 75 GeV definition of the signal region. The various relative systematic uncertainties on the extraction of the UED signal cross section are summarized in Table II, including the dominant 11% uncertainty on the integrated luminosity [17]. Uncertainties on the efficiency for recon-structing and identifying the

pair arise mainly due to

differences between MC simulations and data in the dis-tributions of the photon identification variables, the need to extrapolate to the higher E_T values (see Fig.1) typical of the UED photons, the impact of the photon quality cuts, varying the scale of the photonE_Tcut, and uncertainties in the detailed material composition of the detector. Together these provide a systematic uncertainty of 4%. The influ-ence of pileup, evaluated by comparing MC samples with and without pileup, gives a systematic uncertainty of 2%. Systematic effects on theEmiss_T reconstruction [14], includ-ing pileup, varyinclud-ing the cluster energies within the current uncertainties, and varying the expected Emiss_T resolution between the measured performance and MC expectations, combine to give a 1% uncertainty on the signal efficiency. Finally, the 1% statistical error on the signal efficiency as determined by MC simulations is treated as a systematic uncertainty on the result. Adding in quadrature, the total systematic uncertainty on the signal yield is 12%.

Given the good agreement between the measuredEmiss_T spectrum and the expected background, a limit was set on 1=R in the specific UED model considered here. A Bayesian approach was used to calculate a limit based on the number of observed and expected events withEmiss_T > 75 GeV. A Poisson distribution was used as the likelihood function for the expected number of signal events, and a flat prior was used for the signal cross section. Log-normal priors were used for the various sources of uncertainty, which were treated as nuisance parameters. It was verified that the result is not very sensitive to the detailed form of the assumed priors. Figure4depicts the resulting95%C:L: upper limit within the context of the UED model consid-ered, together with the LO UED cross section as a function of1=R. The LO cross section was used since higher order corrections have not been calculated for the UED model. An uncertainty on the signal cross section due to parton distribution functions (PDF’s) was determined by compar-ing the predictions uscompar-ing MRST2007 [18] PDF’s with those from the full set of error PDF’s of CTEQ6.6 [19]. The resultant uncertainty, namely 8% essentially inde-pendent of1=R, is shown by the width of the theory curve band. The observed 95%C:L: exclusion region is 1=R < 729 GeV. The result depends weakly on the systematic

TABLE I. The number of observed

candidates, as well as the SM backgrounds estimated from data and expected UED signal for 1=R values of 500 and 700 GeV, given in various Emiss

T ranges. The uncertainties are statistical only. The first row, forEmissT < 20 GeV,

is the control region used to normalize the QCD background to the number of observed

candidates. Emiss

T range Data Predicted background events Expected UED signal events

(GeV) events Total QCD Wð! eÞ þ jets=
1=R ¼ 500 GeV 1=R ¼ 700 GeV

0–20 465 465:0  9:1 465:0  9:1 - 0:28  0:06 0:02  0:01

20–30 45 40:5  2:2 40:41  2:17 0:11  0:07 0:45  0:07 0:03  0:01

30–50 9 10:3  1:3 10:13  1:30 0:16  0:10 1:60  0:12 0:08  0:01

50–75 1 0:93  0:23 0:85  0:23 0:08  0:05 2:84  0:16 0:14  0:01

>75 0 0:32  0:16 0:28  0:15 0:04  0:03 40:45  0:62 4:21  0:06

TABLE II. Relative systematic uncertainties on the expected UED signal yield. For more details, see the text.

Source of uncertainty Uncertainty

Integrated luminosity 11%

Photon reconstruction and identification 4%

Effect of pileup 2%

Emiss

T reconstruction and scale 1%

Signal MC statistics 1%

uncertainties, and would only increase to 732 GeV if they were neglected. Changing theEmiss_T cut to 60 or 90 GeV would change the limit by only a few GeV. A cross-check using a higher purity

sample, achieved by requiring that both photons pass tighter identification cuts that reject more of the background from jets, produced a consistent result.

In conclusion, a search for

events with large Emiss_T , conducted using a3:1 pb
1sample of 7 TeVpp collisions recorded with the ATLAS detector at the LHC, found no evidence of an excess above the SM prediction. The results were used to set limits on a specific model with one UED and gravity-induced LKP decays, excluding at the 95%C:L: values of 1=R < 729 GeV, and significantly sur-passing the only existing experimental limit [7] on this model.

We wish to thank CERN for the efficient commissioning and operation of the LHC during this initial high-energy data-taking period as well as the support staff from our institutions without whom ATLAS could not be operated efficiently. We acknowledge the support of ANPCyT, Argentina; YerPhI, Armenia; ARC, Australia; BMWF, Austria; ANAS, Azerbaijan; SSTC, Belarus; CNPq and FAPESP, Brazil; NSERC, NRC and CFI, Canada; CERN; CONICYT, Chile; CAS, MOST and NSFC, China; COLCIENCIAS, Colombia; MSMT CR, MPO CR and VSC CR, Czech Republic; DNRF, DNSRC and Lundbeck Foundation, Denmark; ARTEMIS, European Union; IN2P3-CNRS, CEA-DSM/IRFU, France; GNAS, Georgia; BMBF, DFG, HGF, MPG and AvH Foundation, Germany; GSRT, Greece; ISF, MINERVA, GIF, DIP and Benoziyo Center, Israel; INFN, Italy; MEXT and JSPS,

Japan; CNRST, Morocco; FOM and NWO, Netherlands; RCN, Norway; MNiSW, Poland; GRICES and FCT, Portugal; MERYS (MECTS), Romania; MES of Russia and ROSATOM, Russian Federation; JINR; MSTD, Serbia; MSSR, Slovakia; ARRS and MVZT, Slovenia; DST/NRF, South Africa; MICINN, Spain; SRC and Wallenberg Foundation, Sweden; SER, SNSF and Cantons of Bern and Geneva, Switzerland; NSC, Taiwan; TAEK, Turkey; STFC, the Royal Society and Leverhulme Trust, United Kingdom; DOE and NSF, United States of America. The crucial computing support from all WLCG partners is acknowledged gratefully, in particular, from CERN and the ATLAS Tier-1 facilities at TRIUMF (Canada), NDGF (Denmark, Norway, Sweden), CC-IN2P3 (France), KIT/GridKA (Germany), INFN-CNAF (Italy), NL-T1 (Netherlands), PIC (Spain), ASGC (Taiwan), RAL (UK) and BNL (USA) and in the Tier-2 facilities worldwide.

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FIG. 4 (color online). 95%C:L: upper limits on the UED production cross section, and the LO theory cross section pre-diction, as a function of1=R. The shaded band shows the PDF uncertainty.

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S. Behar Harpaz,152P. K. Behera,63M. Beimforde,99C. Belanger-Champagne,166P. J. Bell,49W. H. Bell,49 G. Bella,153L. Bellagamba,19aF. Bellina,29G. Bellomo,89a,89bM. Bellomo,119aA. Belloni,57K. Belotskiy,96 O. Beltramello,29S. Ben Ami,152O. Benary,153D. Benchekroun,135aC. Benchouk,83M. Bendel,81B. H. Benedict,163

N. Benekos,165Y. Benhammou,153D. P. Benjamin,44M. Benoit,115J. R. Bensinger,22K. Benslama,130 S. Bentvelsen,105D. Berge,29E. Bergeaas Kuutmann,41N. Berger,4F. Berghaus,169E. Berglund,49J. Beringer,14

K. Bernardet,83P. Bernat,115R. Bernhard,48C. Bernius,24T. Berry,76A. Bertin,19a,19bF. Bertinelli,29 F. Bertolucci,122a,122bM. I. Besana,89a,89bN. Besson,136S. Bethke,99W. Bhimji,45R. M. Bianchi,29M. Bianco,72a,72b

O. Biebel,98J. Biesiada,14M. Biglietti,132a,132bH. Bilokon,47M. Bindi,19a,19bA. Bingul,18cC. Bini,132a,132b C. Biscarat,177U. Bitenc,48K. M. Black,21R. E. Blair,5J.-B. Blanchard,115G. Blanchot,29C. Blocker,22J. Blocki,38

A. Blondel,49W. Blum,81U. Blumenschein,54G. J. Bobbink,105V. B. Bobrovnikov,107A. Bocci,44R. Bock,29 C. R. Boddy,118M. Boehler,41J. Boek,174N. Boelaert,35S. Bo¨ser,77J. A. Bogaerts,29A. Bogdanchikov,107 A. Bogouch,90,aC. Bohm,146aV. Boisvert,76T. Bold,163,fV. Boldea,25aM. Bona,75M. Boonekamp,136G. Boorman,76 C. N. Booth,139P. Booth,139J. R. A. Booth,17S. Bordoni,78C. Borer,16A. Borisov,128G. Borissov,71I. Borjanovic,12a S. Borroni,132a,132bK. Bos,105D. Boscherini,19aM. Bosman,11H. Boterenbrood,105D. Botterill,129J. Bouchami,93

J. Boudreau,123E. V. Bouhova-Thacker,71C. Boulahouache,123C. Bourdarios,115N. Bousson,83A. Boveia,30 J. Boyd,29I. R. Boyko,65N. I. Bozhko,128I. Bozovic-Jelisavcic,12bJ. Bracinik,17A. Braem,29E. Brambilla,72a,72b P. Branchini,134aG. W. Brandenburg,57A. Brandt,7G. Brandt,41O. Brandt,54U. Bratzler,156B. Brau,84J. E. Brau,114

H. M. Braun,174B. Brelier,158J. Bremer,29R. Brenner,166S. Bressler,152D. Breton,115N. D. Brett,118 P. G. Bright-Thomas,17D. Britton,53F. M. Brochu,27I. Brock,20R. Brock,88T. J. Brodbeck,71E. Brodet,153

F. Broggi,89aC. Bromberg,88G. Brooijmans,34W. K. Brooks,31bG. Brown,82E. Brubaker,30 P. A. Bruckman de Renstrom,38D. Bruncko,144bR. Bruneliere,48S. Brunet,61A. Bruni,19aG. Bruni,19a M. Bruschi,19aT. Buanes,13F. Bucci,49J. Buchanan,118N. J. Buchanan,2P. Buchholz,141R. M. Buckingham,118

A. G. Buckley,45S. I. Buda,25aI. A. Budagov,65B. Budick,108V. Bu¨scher,81L. Bugge,117D. Buira-Clark,118 E. J. Buis,105O. Bulekov,96M. Bunse,42T. Buran,117H. Burckhart,29S. Burdin,73T. Burgess,13S. Burke,129

E. Busato,33P. Bussey,53C. P. Buszello,166F. Butin,29B. Butler,143J. M. Butler,21C. M. Buttar,53

J. M. Butterworth,77W. Buttinger,27T. Byatt,77S. Cabrera Urba´n,167M. Caccia,89a,89bD. Caforio,19a,19bO. Cakir,3a P. Calafiura,14G. Calderini,78P. Calfayan,98R. Calkins,106L. P. Caloba,23aR. Caloi,132a,132bD. Calvet,33S. Calvet,33

A. Camard,78P. Camarri,133a,133bM. Cambiaghi,119a,119bD. Cameron,117J. Cammin,20S. Campana,29 M. Campanelli,77V. Canale,102a,102bF. Canelli,30A. Canepa,159aJ. Cantero,80L. Capasso,102a,102b M. D. M. Capeans Garrido,29I. Caprini,25aM. Caprini,25aD. Capriotti,99M. Capua,36a,36bR. Caputo,148 C. Caramarcu,25aR. Cardarelli,133aT. Carli,29G. Carlino,102aL. Carminati,89a,89bB. Caron,159aS. Caron,48 C. Carpentieri,48G. D. Carrillo Montoya,172S. Carron Montero,158A. A. Carter,75J. R. Carter,27J. Carvalho,124a,g

D. Casadei,108M. P. Casado,11M. Cascella,122a,122bC. Caso,50a,50b,aA. M. Castaneda Hernandez,172 E. Castaneda-Miranda,172V. Castillo Gimenez,167N. F. Castro,124b,bG. Cataldi,72aF. Cataneo,29A. Catinaccio,29 J. R. Catmore,71A. Cattai,29G. Cattani,133a,133bS. Caughron,88A. Cavallari,132a,132bP. Cavalleri,78D. Cavalli,89a M. Cavalli-Sforza,11V. Cavasinni,122a,122bA. Cazzato,72a,72bF. Ceradini,134a,134bC. Cerna,83A. S. Cerqueira,23a A. Cerri,29L. Cerrito,75F. Cerutti,47S. A. Cetin,18bF. Cevenini,102a,102bA. Chafaq,135aD. Chakraborty,106K. Chan,2

B. Chapleau,85J. D. Chapman,27J. W. Chapman,87E. Chareyre,78D. G. Charlton,17V. Chavda,82S. Cheatham,71 S. Chekanov,5S. V. Chekulaev,159aG. A. Chelkov,65H. Chen,24L. Chen,2S. Chen,32cT. Chen,32cX. Chen,172

S. Cheng,32aA. Cheplakov,65V. F. Chepurnov,65R. Cherkaoui El Moursli,135dV. Chernyatin,24E. Cheu,6 S. L. Cheung,158L. Chevalier,136F. Chevallier,136G. Chiefari,102a,102bL. Chikovani,51J. T. Childers,58a A. Chilingarov,71G. Chiodini,72aM. V. Chizhov,65G. Choudalakis,30S. Chouridou,137I. A. Christidi,77 A. Christov,48D. Chromek-Burckhart,29M. L. Chu,151J. Chudoba,125G. Ciapetti,132a,132bA. K. Ciftci,3aR. Ciftci,3a D. Cinca,33V. Cindro,74M. D. Ciobotaru,163C. Ciocca,19a,19bA. Ciocio,14M. Cirilli,87M. Ciubancan,25aA. Clark,49

P. J. Clark,45W. Cleland,123J. C. Clemens,83B. Clement,55C. Clement,146a,146bR. W. Clifft,129Y. Coadou,83 M. Cobal,164a,164cA. Coccaro,50a,50bJ. Cochran,64P. Coe,118J. G. Cogan,143J. Coggeshall,165E. Cogneras,177 C. D. Cojocaru,28J. Colas,4A. P. Colijn,105C. Collard,115N. J. Collins,17C. Collins-Tooth,53J. Collot,55G. Colon,84

R. Coluccia,72a,72bG. Comune,88P. Conde Muin˜o,124aE. Coniavitis,118M. C. Conidi,11M. Consonni,104 S. Constantinescu,25aC. Conta,119a,119bF. Conventi,102a,hJ. Cook,29M. Cooke,14B. D. Cooper,75 A. M. Cooper-Sarkar,118N. J. Cooper-Smith,76K. Copic,34T. Cornelissen,50a,50bM. Corradi,19aS. Correard,83 F. Corriveau,85,iA. Cortes-Gonzalez,165G. Cortiana,99G. Costa,89aM. J. Costa,167D. Costanzo,139T. Costin,30

D. Coˆte´,29R. Coura Torres,23aL. Courneyea,169G. Cowan,76C. Cowden,27B. E. Cox,82K. Cranmer,108 M. Cristinziani,20G. Crosetti,36a,36bR. Crupi,72a,72bS. Cre´pe´-Renaudin,55C. Cuenca Almenar,175 T. Cuhadar Donszelmann,139S. Cuneo,50a,50bM. Curatolo,47C. J. Curtis,17P. Cwetanski,61H. Czirr,141

Z. Czyczula,117S. D’Auria,53M. D’Onofrio,73A. D’Orazio,132a,132bA. Da Rocha Gesualdi Mello,23a P. V. M. Da Silva,23aC. Da Via,82W. Dabrowski,37A. Dahlhoff,48T. Dai,87C. Dallapiccola,84S. J. Dallison,129,a

M. Dam,35M. Dameri,50a,50bD. S. Damiani,137H. O. Danielsson,29R. Dankers,105D. Dannheim,99V. Dao,49 G. Darbo,50aG. L. Darlea,25bC. Daum,105J. P. Dauvergne,29W. Davey,86T. Davidek,126N. Davidson,86 R. Davidson,71M. Davies,93A. R. Davison,77E. Dawe,142I. Dawson,139J. W. Dawson,5,aR. K. Daya,39K. De,7

R. de Asmundis,102aS. De Castro,19a,19bS. De Cecco,78J. de Graat,98N. De Groot,104P. de Jong,105 E. De La Cruz-Burelo,87C. De La Taille,115B. De Lotto,164a,164cL. De Mora,71L. De Nooij,105

M. De Oliveira Branco,29D. De Pedis,132aP. de Saintignon,55A. De Salvo,132aU. De Sanctis,164a,164cA. De Santo,149 J. B. De Vivie De Regie,115S. Dean,77G. Dedes,99D. V. Dedovich,65J. Degenhardt,120M. Dehchar,118M. Deile,98 C. Del Papa,164a,164cJ. Del Peso,80T. Del Prete,122a,122bA. Dell’Acqua,29L. Dell’Asta,89a,89bM. Della Pietra,102a,h D. della Volpe,102a,102bM. Delmastro,29P. Delpierre,83N. Delruelle,29P. A. Delsart,55C. Deluca,148S. Demers,175 M. Demichev,65B. Demirkoz,11J. Deng,163S. P. Denisov,128C. Dennis,118D. Derendarz,38J. E. Derkaoui,135c

F. Derue,78P. Dervan,73K. Desch,20E. Devetak,148P. O. Deviveiros,158A. Dewhurst,129B. DeWilde,148 S. Dhaliwal,158R. Dhullipudi,24,jA. Di Ciaccio,133a,133bL. Di Ciaccio,4A. Di Girolamo,29B. Di Girolamo,29 S. Di Luise,134a,134bA. Di Mattia,88R. Di Nardo,133a,133bA. Di Simone,133a,133bR. Di Sipio,19a,19bM. A. Diaz,31a

F. Diblen,18cE. B. Diehl,87H. Dietl,99J. Dietrich,48T. A. Dietzsch,58aS. Diglio,115K. Dindar Yagci,39 J. Dingfelder,20C. Dionisi,132a,132bP. Dita,25aS. Dita,25aF. Dittus,29F. Djama,83R. Djilkibaev,108T. Djobava,51

M. A. B. do Vale,23aA. Do Valle Wemans,124aT. K. O. Doan,4M. Dobbs,85R. Dobinson,29,aD. Dobos,42 E. Dobson,29M. Dobson,163J. Dodd,34O. B. Dogan,18a,aC. Doglioni,118T. Doherty,53Y. Doi,66J. Dolejsi,126

I. Dolenc,74Z. Dolezal,126B. A. Dolgoshein,96T. Dohmae,155M. Donadelli,23bM. Donega,120J. Donini,55 J. Dopke,174A. Doria,102aA. Dos Anjos,172M. Dosil,11A. Dotti,122a,122bM. T. Dova,70J. D. Dowell,17 A. D. Doxiadis,105A. T. Doyle,53Z. Drasal,126J. Drees,174N. Dressnandt,120H. Drevermann,29C. Driouichi,35

M. Dris,9J. G. Drohan,77J. Dubbert,99T. Dubbs,137S. Dube,14E. Duchovni,171G. Duckeck,98A. Dudarev,29 F. Dudziak,115M. Du¨hrssen,29I. P. Duerdoth,82L. Duflot,115M-A. Dufour,85M. Dunford,29H. Duran Yildiz,3b

R. Duxfield,139M. Dwuznik,37F. Dydak,29D. Dzahini,55M. Du¨ren,52J. Ebke,98S. Eckert,48S. Eckweiler,81 K. Edmonds,81C. A. Edwards,76I. Efthymiopoulos,49W. Ehrenfeld,41T. Ehrich,99T. Eifert,29G. Eigen,13 K. Einsweiler,14E. Eisenhandler,75T. Ekelof,166M. El Kacimi,4M. Ellert,166S. Elles,4F. Ellinghaus,81K. Ellis,75

N. Ellis,29J. Elmsheuser,98M. Elsing,29R. Ely,14D. Emeliyanov,129R. Engelmann,148A. Engl,98B. Epp,62 A. Eppig,87J. Erdmann,54A. Ereditato,16D. Eriksson,146aJ. Ernst,1M. Ernst,24J. Ernwein,136D. Errede,165

S. Errede,165E. Ertel,81M. Escalier,115C. Escobar,167X. Espinal Curull,11B. Esposito,47F. Etienne,83 A. I. Etienvre,136E. Etzion,153D. Evangelakou,54H. Evans,61L. Fabbri,19a,19bC. Fabre,29K. Facius,35 R. M. Fakhrutdinov,128S. Falciano,132aA. C. Falou,115Y. Fang,172M. Fanti,89a,89bA. Farbin,7A. Farilla,134a J. Farley,148T. Farooque,158S. M. Farrington,118P. Farthouat,29D. Fasching,172P. Fassnacht,29D. Fassouliotis,8 B. Fatholahzadeh,158A. Favareto,89a,89bL. Fayard,115S. Fazio,36a,36bR. Febbraro,33P. Federic,144aO. L. Fedin,121

I. Fedorko,29W. Fedorko,88M. Fehling-Kaschek,48L. Feligioni,83D. Fellmann,5C. U. Felzmann,86C. Feng,32d E. J. Feng,30A. B. Fenyuk,128J. Ferencei,144bD. Ferguson,172J. Ferland,93B. Fernandes,124a,cW. Fernando,109 S. Ferrag,53J. Ferrando,118V. Ferrara,41A. Ferrari,166P. Ferrari,105R. Ferrari,119aA. Ferrer,167M. L. Ferrer,47

D. Ferrere,49C. Ferretti,87A. Ferretto Parodi,50a,50bM. Fiascaris,30F. Fiedler,81A. Filipcˇicˇ,74A. Filippas,9 F. Filthaut,104M. Fincke-Keeler,169M. C. N. Fiolhais,124a,gL. Fiorini,11A. Firan,39G. Fischer,41P. Fischer,20

M. J. Fisher,109S. M. Fisher,129J. Flammer,29M. Flechl,48I. Fleck,141J. Fleckner,81P. Fleischmann,173 S. Fleischmann,20T. Flick,174L. R. Flores Castillo,172M. J. Flowerdew,99F. Fo¨hlisch,58aM. Fokitis,9 T. Fonseca Martin,16D. A. Forbush,138A. Formica,136A. Forti,82D. Fortin,159aJ. M. Foster,82D. Fournier,115 A. Foussat,29A. J. Fowler,44K. Fowler,137H. Fox,71P. Francavilla,122a,122bS. Franchino,119a,119bD. Francis,29

T. Frank,171M. Franklin,57S. Franz,29M. Fraternali,119a,119bS. Fratina,120S. T. French,27R. Froeschl,29 D. Froidevaux,29J. A. Frost,27C. Fukunaga,156E. Fullana Torregrosa,29J. Fuster,167C. Gabaldon,29O. Gabizon,171 T. Gadfort,24S. Gadomski,49G. Gagliardi,50a,50bP. Gagnon,61C. Galea,98E. J. Gallas,118M. V. Gallas,29V. Gallo,16

B. J. Gallop,129P. Gallus,125E. Galyaev,40K. K. Gan,109Y. S. Gao,143,kV. A. Gapienko,128A. Gaponenko,14 F. Garberson,175M. Garcia-Sciveres,14C. Garcı´a,167J. E. Garcı´a Navarro,49R. W. Gardner,30N. Garelli,29 H. Garitaonandia,105V. Garonne,29J. Garvey,17C. Gatti,47G. Gaudio,119aO. Gaumer,49B. Gaur,141L. Gauthier,136

I. L. Gavrilenko,94C. Gay,168G. Gaycken,20J-C. Gayde,29E. N. Gazis,9P. Ge,32dC. N. P. Gee,129 Ch. Geich-Gimbel,20K. Gellerstedt,146a,146bC. Gemme,50aA. Gemmell,53M. H. Genest,98S. Gentile,132a,132b

F. Georgatos,9S. George,76P. Gerlach,174A. Gershon,153C. Geweniger,58aH. Ghazlane,135dP. Ghez,4 N. Ghodbane,33B. Giacobbe,19aS. Giagu,132a,132bV. Giakoumopoulou,8V. Giangiobbe,122a,122bF. Gianotti,29

B. Gibbard,24A. Gibson,158S. M. Gibson,29G. F. Gieraltowski,5L. M. Gilbert,118M. Gilchriese,14 O. Gildemeister,29V. Gilewsky,91D. Gillberg,28A. R. Gillman,129D. M. Gingrich,2,eJ. Ginzburg,153N. Giokaris,8

R. Giordano,102a,102bF. M. Giorgi,15P. Giovannini,99P. F. Giraud,136D. Giugni,89aP. Giusti,19aB. K. Gjelsten,117 L. K. Gladilin,97C. Glasman,80J. Glatzer,48A. Glazov,41K. W. Glitza,174G. L. Glonti,65J. Godfrey,142 J. Godlewski,29M. Goebel,41T. Go¨pfert,43C. Goeringer,81C. Go¨ssling,42T. Go¨ttfert,99S. Goldfarb,87D. Goldin,39 T. Golling,175N. P. Gollub,29S. N. Golovnia,128A. Gomes,124a,cL. S. Gomez Fajardo,41R. Gonc¸alo,76L. Gonella,20 C. Gong,32bA. Gonidec,29S. Gonzalez,172S. Gonza´lez de la Hoz,167M. L. Gonzalez Silva,26S. Gonzalez-Sevilla,49

J. J. Goodson,148L. Goossens,29P. A. Gorbounov,95H. A. Gordon,24I. Gorelov,103G. Gorfine,174B. Gorini,29 E. Gorini,72a,72bA. Gorisˇek,74E. Gornicki,38S. A. Gorokhov,128B. T. Gorski,29V. N. Goryachev,128B. Gosdzik,41

M. Gosselink,105M. I. Gostkin,65M. Gouane`re,4I. Gough Eschrich,163M. Gouighri,135aD. Goujdami,135a M. P. Goulette,49A. G. Goussiou,138C. Goy,4I. Grabowska-Bold,163,fV. Grabski,176P. Grafstro¨m,29C. Grah,174

K-J. Grahn,147F. Grancagnolo,72aS. Grancagnolo,15V. Grassi,148V. Gratchev,121N. Grau,34H. M. Gray,34,l J. A. Gray,148E. Graziani,134aO. G. Grebenyuk,121D. Greenfield,129T. Greenshaw,73Z. D. Greenwood,24,j I. M. Gregor,41P. Grenier,143E. Griesmayer,46J. Griffiths,138N. Grigalashvili,65A. A. Grillo,137K. Grimm,148

S. Grinstein,11P. L. Y. Gris,33Y. V. Grishkevich,97J.-F. Grivaz,115J. Grognuz,29M. Groh,99E. Gross,171 J. Grosse-Knetter,54J. Groth-Jensen,79M. Gruwe,29K. Grybel,141V. J. Guarino,5C. Guicheney,33A. Guida,72a,72b

V. N. Gushchin,128A. Gutierrez,93P. Gutierrez,111N. Guttman,153O. Gutzwiller,172C. Guyot,136C. Gwenlan,118 C. B. Gwilliam,73A. Haas,143S. Haas,29C. Haber,14R. Hackenburg,24H. K. Hadavand,39D. R. Hadley,17 P. Haefner,99F. Hahn,29S. Haider,29Z. Hajduk,38H. Hakobyan,176J. Haller,54K. Hamacher,174A. Hamilton,49

S. Hamilton,161H. Han,32aL. Han,32bK. Hanagaki,116M. Hance,120C. Handel,81P. Hanke,58aC. J. Hansen,166 J. R. Hansen,35J. B. Hansen,35J. D. Hansen,35P. H. Hansen,35P. Hansson,143K. Hara,160G. A. Hare,137 T. Harenberg,174D. Harper,87R. D. Harrington,21O. M. Harris,138K. Harrison,17J. C. Hart,129J. Hartert,48 F. Hartjes,105T. Haruyama,66A. Harvey,56S. Hasegawa,101Y. Hasegawa,140S. Hassani,136M. Hatch,29D. Hauff,99

S. Haug,16M. Hauschild,29R. Hauser,88M. Havranek,125B. M. Hawes,118C. M. Hawkes,17R. J. Hawkings,29 D. Hawkins,163T. Hayakawa,67D Hayden,76H. S. Hayward,73S. J. Haywood,129E. Hazen,21M. He,32dS. J. Head,17 V. Hedberg,79L. Heelan,28S. Heim,88B. Heinemann,14S. Heisterkamp,35L. Helary,4M. Heldmann,48M. Heller,115 S. Hellman,146a,146bC. Helsens,11R. C. W. Henderson,71M. Henke,58aA. Henrichs,54A. M. Henriques Correia,29

S. Henrot-Versille,115F. Henry-Couannier,83C. Hensel,54T. Henß,174Y. Herna´ndez Jime´nez,167R. Herrberg,15 A. D. Hershenhorn,152G. Herten,48R. Hertenberger,98L. Hervas,29N. P. Hessey,105A. Hidvegi,146a E. Higo´n-Rodriguez,167D. Hill,5,aJ. C. Hill,27N. Hill,5K. H. Hiller,41S. Hillert,20S. J. Hillier,17I. Hinchliffe,14

E. Hines,120M. Hirose,116F. Hirsch,42D. Hirschbuehl,174J. Hobbs,148N. Hod,153M. C. Hodgkinson,139 P. Hodgson,139A. Hoecker,29M. R. Hoeferkamp,103J. Hoffman,39D. Hoffmann,83M. Hohlfeld,81M. Holder,141 A. Holmes,118S. O. Holmgren,146aT. Holy,127J. L. Holzbauer,88R. J. Homer,17Y. Homma,67T. Horazdovsky,127 C. Horn,143S. Horner,48K. Horton,118J-Y. Hostachy,55T. Hott,99S. Hou,151M. A. Houlden,73A. Hoummada,135a

J. Howarth,82D. F. Howell,118I. Hristova,41J. Hrivnac,115I. Hruska,125T. Hryn’ova,4P. J. Hsu,175S.-C. Hsu,14 G. S. Huang,111Z. Hubacek,127F. Hubaut,83F. Huegging,20T. B. Huffman,118E. W. Hughes,34G. Hughes,71 R. E. Hughes-Jones,82M. Huhtinen,29P. Hurst,57M. Hurwitz,14U. Husemann,41N. Huseynov,65,nJ. Huston,88 J. Huth,57G. Iacobucci,102aG. Iakovidis,9M. Ibbotson,82I. Ibragimov,141R. Ichimiya,67L. Iconomidou-Fayard,115

J. Idarraga,115M. Idzik,37P. Iengo,4O. Igonkina,105Y. Ikegami,66M. Ikeno,66Y. Ilchenko,39D. Iliadis,154 D. Imbault,78M. Imhaeuser,174M. Imori,155T. Ince,20J. Inigo-Golfin,29P. Ioannou,8M. Iodice,134aG. Ionescu,4 A. Irles Quiles,167K. Ishii,66A. Ishikawa,67M. Ishino,66R. Ishmukhametov,39T. Isobe,155C. Issever,118S. Istin,18a

Y. Itoh,101A. V. Ivashin,128W. Iwanski,38H. Iwasaki,66J. M. Izen,40V. Izzo,102aB. Jackson,120J. N. Jackson,73 P. Jackson,143M. R. Jaekel,29V. Jain,61K. Jakobs,48S. Jakobsen,35J. Jakubek,127D. K. Jana,111E. Jankowski,158

E. Jansen,77A. Jantsch,99M. Janus,20G. Jarlskog,79L. Jeanty,57K. Jelen,37I. Jen-La Plante,30P. Jenni,29 A. Jeremie,4P. Jezˇ,35S. Je´ze´quel,4H. Ji,172W. Ji,81J. Jia,148Y. Jiang,32bM. Jimenez Belenguer,29G. Jin,32bS. Jin,32a

O. Jinnouchi,157M. D. Joergensen,35D. Joffe,39L. G. Johansen,13M. Johansen,146a,146bK. E. Johansson,146a P. Johansson,139S. Johnert,41K. A. Johns,6K. Jon-And,146a,146bG. Jones,82R. W. L. Jones,71T. W. Jones,77 T. J. Jones,73O. Jonsson,29K. K. Joo,158C. Joram,29P. M. Jorge,124a,cJ. Joseph,14X. Ju,130V. Juranek,125P. Jussel,62

V. V. Kabachenko,128S. Kabana,16M. Kaci,167A. Kaczmarska,38P. Kadlecik,35M. Kado,115H. Kagan,109 M. Kagan,57S. Kaiser,99E. Kajomovitz,152S. Kalinin,174L. V. Kalinovskaya,65S. Kama,39N. Kanaya,155 M. Kaneda,155T. Kanno,157V. A. Kantserov,96J. Kanzaki,66B. Kaplan,175A. Kapliy,30J. Kaplon,29D. Kar,43

M. Karagoz,118M. Karnevskiy,41K. Karr,5V. Kartvelishvili,71A. N. Karyukhin,128L. Kashif,57A. Kasmi,39 R. D. Kass,109A. Kastanas,13M. Kataoka,4Y. Kataoka,155E. Katsoufis,9J. Katzy,41V. Kaushik,6K. Kawagoe,67 T. Kawamoto,155G. Kawamura,81M. S. Kayl,105V. A. Kazanin,107M. Y. Kazarinov,65S. I. Kazi,86J. R. Keates,82 R. Keeler,169R. Kehoe,39M. Keil,54G. D. Kekelidze,65M. Kelly,82J. Kennedy,98C. J. Kenney,143M. Kenyon,53

O. Kepka,125N. Kerschen,29B. P. Kersˇevan,74S. Kersten,174K. Kessoku,155C. Ketterer,48M. Khakzad,28 F. Khalil-zada,10H. Khandanyan,165A. Khanov,112D. Kharchenko,65A. Khodinov,148A. G. Kholodenko,128 A. Khomich,58aT. J. Khoo,27G. Khoriauli,20N. Khovanskiy,65V. Khovanskiy,95E. Khramov,65J. Khubua,51 G. Kilvington,76H. Kim,7M. S. Kim,2P. C. Kim,143S. H. Kim,160N. Kimura,170O. Kind,15B. T. King,73M. King,67

R. S. B. King,118J. Kirk,129G. P. Kirsch,118L. E. Kirsch,22A. E. Kiryunin,99D. Kisielewska,37T. Kittelmann,123 A. M. Kiver,128H. Kiyamura,67E. Kladiva,144bJ. Klaiber-Lodewigs,42M. Klein,73U. Klein,73K. Kleinknecht,81 M. Klemetti,85A. Klier,171A. Klimentov,24R. Klingenberg,42E. B. Klinkby,35T. Klioutchnikova,29P. F. Klok,104 S. Klous,105E.-E. Kluge,58aT. Kluge,73P. Kluit,105S. Kluth,99E. Kneringer,62J. Knobloch,29A. Knue,54B. R. Ko,44 T. Kobayashi,155M. Kobel,43B. Koblitz,29M. Kocian,143A. Kocnar,113P. Kodys,126K. Ko¨neke,29A. C. Ko¨nig,104 S. Koenig,81S. Ko¨nig,48L. Ko¨pke,81F. Koetsveld,104P. Koevesarki,20T. Koffas,29E. Koffeman,105F. Kohn,54

Z. Kohout,127T. Kohriki,66T. Koi,143T. Kokott,20G. M. Kolachev,107H. Kolanoski,15V. Kolesnikov,65 I. Koletsou,89a,89bJ. Koll,88D. Kollar,29M. Kollefrath,48S. D. Kolya,82A. A. Komar,94J. R. Komaragiri,142

T. Kondo,66T. Kono,41,oA. I. Kononov,48R. Konoplich,108,pN. Konstantinidis,77A. Kootz,174S. Koperny,37 S. V. Kopikov,128K. Korcyl,38K. Kordas,154V. Koreshev,128A. Korn,14A. Korol,107I. Korolkov,11 E. V. Korolkova,139V. A. Korotkov,128O. Kortner,99S. Kortner,99V. V. Kostyukhin,20M. J. Kotama¨ki,29S. Kotov,99

V. M. Kotov,65C. Kourkoumelis,8A. Koutsman,105R. Kowalewski,169T. Z. Kowalski,37W. Kozanecki,136 A. S. Kozhin,128V. Kral,127V. A. Kramarenko,97G. Kramberger,74O. Krasel,42M. W. Krasny,78 A. Krasznahorkay,108J. Kraus,88A. Kreisel,153F. Krejci,127J. Kretzschmar,73N. Krieger,54P. Krieger,158

K. Kroeninger,54H. Kroha,99J. Kroll,120J. Kroseberg,20J. Krstic,12aU. Kruchonak,65H. Kru¨ger,20 Z. V. Krumshteyn,65A. Kruth,20T. Kubota,155S. Kuehn,48A. Kugel,58cT. Kuhl,174D. Kuhn,62V. Kukhtin,65 Y. Kulchitsky,90S. Kuleshov,31bC. Kummer,98M. Kuna,83N. Kundu,118J. Kunkle,120A. Kupco,125H. Kurashige,67 M. Kurata,160Y. A. Kurochkin,90V. Kus,125W. Kuykendall,138M. Kuze,157P. Kuzhir,91O. Kvasnicka,125R. Kwee,15

A. La Rosa,29L. La Rotonda,36a,36bL. Labarga,80J. Labbe,4C. Lacasta,167F. Lacava,132a,132bH. Lacker,15 D. Lacour,78V. R. Lacuesta,167E. Ladygin,65R. Lafaye,4B. Laforge,78T. Lagouri,80S. Lai,48E. Laisne,55 M. Lamanna,29C. L. Lampen,6W. Lampl,6E. Lancon,136U. Landgraf,48M. P. J. Landon,75H. Landsman,152 J. L. Lane,82C. Lange,41A. J. Lankford,163F. Lanni,24K. Lantzsch,29V. V. Lapin,128,aS. Laplace,4C. Lapoire,20

J. F. Laporte,136T. Lari,89aA. V. Larionov,128A. Larner,118C. Lasseur,29M. Lassnig,29W. Lau,118P. Laurelli,47 A. Lavorato,118W. Lavrijsen,14P. Laycock,73A. B. Lazarev,65A. Lazzaro,89a,89bO. Le Dortz,78E. Le Guirriec,83

C. Le Maner,158E. Le Menedeu,136M. Leahu,29A. Lebedev,64C. Lebel,93T. LeCompte,5F. Ledroit-Guillon,55 H. Lee,105J. S. H. Lee,150S. C. Lee,151L. Lee,175M. Lefebvre,169M. Legendre,136A. Leger,49B. C. LeGeyt,120

F. Legger,98C. Leggett,14M. Lehmacher,20G. Lehmann Miotto,29M. Lehto,139X. Lei,6M. A. L. Leite,23b R. Leitner,126D. Lellouch,171J. Lellouch,78M. Leltchouk,34V. Lendermann,58aK. J. C. Leney,145bT. Lenz,174 G. Lenzen,174B. Lenzi,136K. Leonhardt,43S. Leontsinis,9C. Leroy,93J-R. Lessard,169J. Lesser,146aC. G. Lester,27

A. Leung Fook Cheong,172J. Leveˆque,83D. Levin,87L. J. Levinson,171M. S. Levitski,128M. Lewandowska,21 M. Leyton,15B. Li,83H. Li,172S. Li,32bX. Li,87Z. Liang,39Z. Liang,118,qB. Liberti,133aP. Lichard,29 M. Lichtnecker,98K. Lie,165W. Liebig,13R. Lifshitz,152J. N. Lilley,17A. Limosani,86M. Limper,63S. C. Lin,151,r

F. Linde,105J. T. Linnemann,88E. Lipeles,120L. Lipinsky,125A. Lipniacka,13T. M. Liss,165A. Lister,49 A. M. Litke,137C. Liu,28D. Liu,151,sH. Liu,87J. B. Liu,87M. Liu,32bS. Liu,2Y. Liu,32bM. Livan,119a,119b S. S. A. Livermore,118A. Lleres,55S. L. Lloyd,75E. Lobodzinska,41P. Loch,6W. S. Lockman,137S. Lockwitz,175 T. Loddenkoetter,20F. K. Loebinger,82A. Loginov,175C. W. Loh,168T. Lohse,15K. Lohwasser,48M. Lokajicek,125 J. Loken,118V. P. Lombardo,89a,89bR. E. Long,71L. Lopes,124a,cD. Lopez Mateos,34,lM. Losada,162P. Loscutoff,14 F. Lo Sterzo,132a,132bM. J. Losty,159aX. Lou,40A. Lounis,115K. F. Loureiro,162J. Love,21P. A. Love,71A. J. Lowe,143 F. Lu,32aJ. Lu,2L. Lu,39H. J. Lubatti,138C. Luci,132a,132bA. Lucotte,55A. Ludwig,43D. Ludwig,41I. Ludwig,48

J. Ludwig,48F. Luehring,61G. Luijckx,105D. Lumb,48L. Luminari,132aE. Lund,117B. Lund-Jensen,147 B. Lundberg,79J. Lundberg,29J. Lundquist,35M. Lungwitz,81A. Lupi,122a,122bG. Lutz,99D. Lynn,24J. Lys,14

E. Lytken,79H. Ma,24L. L. Ma,172M. Maaßen,48J. A. Macana Goia,93G. Maccarrone,47A. Macchiolo,99 B. Macˇek,74J. Machado Miguens,124a,cD. Macina,49R. Mackeprang,35R. J. Madaras,14W. F. Mader,43 R. Maenner,58cT. Maeno,24P. Ma¨ttig,174S. Ma¨ttig,41P. J. Magalhaes Martins,124a,gL. Magnoni,29E. Magradze,51

C. A. Magrath,104Y. Mahalalel,153K. Mahboubi,48G. Mahout,17C. Maiani,132a,132bC. Maidantchik,23a A. Maio,124a,cS. Majewski,24Y. Makida,66N. Makovec,115P. Mal,6Pa. Malecki,38P. Malecki,38V. P. Maleev,121 F. Malek,55U. Mallik,63D. Malon,5S. Maltezos,9V. Malyshev,107S. Malyukov,65R. Mameghani,98J. Mamuzic,12b

A. Manabe,66L. Mandelli,89aI. Mandic´,74R. Mandrysch,15J. Maneira,124aP. S. Mangeard,88I. D. Manjavidze,65 A. Mann,54P. M. Manning,137A. Manousakis-Katsikakis,8B. Mansoulie,136A. Manz,99A. Mapelli,29L. Mapelli,29

L. March,80J. F. Marchand,29F. Marchese,133a,133bM. Marchesotti,29G. Marchiori,78M. Marcisovsky,125 A. Marin,21,aC. P. Marino,61F. Marroquim,23aR. Marshall,82Z. Marshall,34,lF. K. Martens,158S. Marti-Garcia,167

A. J. Martin,175B. Martin,29B. Martin,88F. F. Martin,120J. P. Martin,93Ph. Martin,55T. A. Martin,17 B. Martin dit Latour,49M. Martinez,11V. Martinez Outschoorn,57A. C. Martyniuk,82M. Marx,82F. Marzano,132a

A. Marzin,111L. Masetti,81T. Mashimo,155R. Mashinistov,94J. Masik,82A. L. Maslennikov,107M. Maß,42 I. Massa,19a,19bG. Massaro,105N. Massol,4A. Mastroberardino,36a,36bT. Masubuchi,155M. Mathes,20P. Matricon,115

H. Matsumoto,155H. Matsunaga,155T. Matsushita,67C. Mattravers,118,tJ. M. Maugain,29S. J. Maxfield,73 E. N. May,5A. Mayne,139R. Mazini,151M. Mazur,20M. Mazzanti,89aE. Mazzoni,122a,122bS. P. Mc Kee,87 A. McCarn,165R. L. McCarthy,148T. G. McCarthy,28N. A. McCubbin,129K. W. McFarlane,56J. A. Mcfayden,139

T. J. McMahon,17R. A. McPherson,169,iA. Meade,84J. Mechnich,105M. Mechtel,174M. Medinnis,41 R. Meera-Lebbai,111T. Meguro,116R. Mehdiyev,93S. Mehlhase,41A. Mehta,73K. Meier,58aJ. Meinhardt,48 B. Meirose,79C. Melachrinos,30B. R. Mellado Garcia,172L. Mendoza Navas,162Z. Meng,151,sA. Mengarelli,19a,19b

S. Menke,99C. Menot,29E. Meoni,11D. Merkl,98P. Mermod,118L. Merola,102a,102bC. Meroni,89aF. S. Merritt,30 A. Messina,29J. Metcalfe,103A. S. Mete,64S. Meuser,20C. Meyer,81J-P. Meyer,136J. Meyer,173J. Meyer,54 T. C. Meyer,29W. T. Meyer,64J. Miao,32dS. Michal,29L. Micu,25aR. P. Middleton,129P. Miele,29S. Migas,73 L. Mijovic´,41G. Mikenberg,171M. Mikestikova,125B. Mikulec,49M. Mikuzˇ,74D. W. Miller,143R. J. Miller,88 W. J. Mills,168C. Mills,57A. Milov,171D. A. Milstead,146a,146bD. Milstein,171A. A. Minaenko,128M. Min˜ano,167

I. A. Minashvili,65A. I. Mincer,108B. Mindur,37M. Mineev,65Y. Ming,130L. M. Mir,11G. Mirabelli,132a L. Miralles Verge,11A. Misiejuk,76A. Mitra,118J. Mitrevski,137G. Y. Mitrofanov,128V. A. Mitsou,167S. Mitsui,66

P. S. Miyagawa,82K. Miyazaki,67J. U. Mjo¨rnmark,79T. Moa,146a,146bP. Mockett,138S. Moed,57V. Moeller,27 K. Mo¨nig,41N. Mo¨ser,20S. Mohapatra,148B. Mohn,13W. Mohr,48S. Mohrdieck-Mo¨ck,99A. M. Moisseev,128,a R. Moles-Valls,167J. Molina-Perez,29L. Moneta,49J. Monk,77E. Monnier,83S. Montesano,89a,89bF. Monticelli,70 S. Monzani,19a,19bR. W. Moore,2G. F. Moorhead,86C. Mora Herrera,49A. Moraes,53A. Morais,124a,cN. Morange,136

J. Morel,54G. Morello,36a,36bD. Moreno,81M. Moreno Lla´cer,167P. Morettini,50aM. Morii,57J. Morin,75 Y. Morita,66A. K. Morley,29G. Mornacchi,29M-C. Morone,49J. D. Morris,75H. G. Moser,99M. Mosidze,51 J. Moss,109R. Mount,143E. Mountricha,9S. V. Mouraviev,94E. J. W. Moyse,84M. Mudrinic,12bF. Mueller,58a

J. Mueller,123K. Mueller,20T. A. Mu¨ller,98D. Muenstermann,42A. Muijs,105A. Muir,168Y. Munwes,153 K. Murakami,66W. J. Murray,129I. Mussche,105E. Musto,102a,102bA. G. Myagkov,128M. Myska,125J. Nadal,11

K. Nagai,160K. Nagano,66Y. Nagasaka,60A. M. Nairz,29Y. Nakahama,115K. Nakamura,155I. Nakano,110 G. Nanava,20A. Napier,161M. Nash,77,tI. Nasteva,82N. R. Nation,21T. Nattermann,20T. Naumann,41G. Navarro,162

H. A. Neal,87E. Nebot,80P.Yu. Nechaeva,94A. Negri,119a,119bG. Negri,29S. Nektarijevic,49A. Nelson,64 S. Nelson,143T. K. Nelson,143S. Nemecek,125P. Nemethy,108A. A. Nepomuceno,23aM. Nessi,29S. Y. Nesterov,121

M. S. Neubauer,165A. Neusiedl,81R. M. Neves,108P. Nevski,24P. R. Newman,17R. B. Nickerson,118 R. Nicolaidou,136L. Nicolas,139B. Nicquevert,29F. Niedercorn,115J. Nielsen,137T. Niinikoski,29A. Nikiforov,15 V. Nikolaenko,128K. Nikolaev,65I. Nikolic-Audit,78K. Nikolopoulos,24H. Nilsen,48P. Nilsson,7Y. Ninomiya,155

A. Nisati,132aT. Nishiyama,67R. Nisius,99L. Nodulman,5M. Nomachi,116I. Nomidis,154H. Nomoto,155 M. Nordberg,29B. Nordkvist,146a,146bO. Norniella Francisco,11P. R. Norton,129J. Novakova,126M. Nozaki,66 M. Nozˇicˇka,41I. M. Nugent,159aA.-E. Nuncio-Quiroz,20G. Nunes Hanninger,20T. Nunnemann,98E. Nurse,77 T. Nyman,29B. J. O’Brien,45S. W. O’Neale,17,aD. C. O’Neil,142V. O’Shea,53F. G. Oakham,28,eH. Oberlack,99

J. Ocariz,78A. Ochi,67S. Oda,155S. Odaka,66J. Odier,83G. A. Odino,50a,50bH. Ogren,61A. Oh,82S. H. Oh,44 C. C. Ohm,146a,146bT. Ohshima,101H. Ohshita,140T. K. Ohska,66T. Ohsugi,59S. Okada,67H. Okawa,163 Y. Okumura,101T. Okuyama,155M. Olcese,50aA. G. Olchevski,65M. Oliveira,124a,gD. Oliveira Damazio,24 E. Oliver Garcia,167D. Olivito,120A. Olszewski,38J. Olszowska,38C. Omachi,67A. Onofre,124a,uP. U. E. Onyisi,30

C. J. Oram,159aG. Ordonez,104M. J. Oreglia,30F. Orellana,49Y. Oren,153D. Orestano,134a,134bI. Orlov,107 C. Oropeza Barrera,53R. S. Orr,158E. O. Ortega,130B. Osculati,50a,50bR. Ospanov,120C. Osuna,11

G. Otero y Garzon,26J.P Ottersbach,105M. Ouchrif,135cF. Ould-Saada,117A. Ouraou,136Q. Ouyang,32aM. Owen,82 S. Owen,139A. Oyarzun,31bO. K. Øye,13V. E. Ozcan,77N. Ozturk,7A. Pacheco Pages,11C. Padilla Aranda,11 E. Paganis,139F. Paige,24K. Pajchel,117S. Palestini,29D. Pallin,33A. Palma,124a,cJ. D. Palmer,17Y. B. Pan,172 E. Panagiotopoulou,9B. Panes,31aN. Panikashvili,87S. Panitkin,24D. Pantea,25aM. Panuskova,125V. Paolone,123 A. Paoloni,133a,133bA. Papadelis,146aTh.D. Papadopoulou,9A. Paramonov,5S. J. Park,54W. Park,24,vM. A. Parker,27

F. Parodi,50a,50bJ. A. Parsons,34U. Parzefall,48E. Pasqualucci,132aA. Passeri,134aF. Pastore,134a,134bFr. Pastore,29 G. Pa´sztor,49,wS. Pataraia,172N. Patel,150J. R. Pater,82S. Patricelli,102a,102bT. Pauly,29M. Pecsy,144a M. I. Pedraza Morales,172S. V. Peleganchuk,107H. Peng,172R. Pengo,29A. Penson,34J. Penwell,61M. Perantoni,23a

K. Perez,34,lT. Perez Cavalcanti,41E. Perez Codina,11M. T. Pe´rez Garcı´a-Estan˜,167V. Perez Reale,34I. Peric,20 L. Perini,89a,89bH. Pernegger,29R. Perrino,72aP. Perrodo,4S. Persembe,3aP. Perus,115V. D. Peshekhonov,65 O. Peters,105B. A. Petersen,29J. Petersen,29T. C. Petersen,35E. Petit,83A. Petridis,154C. Petridou,154E. Petrolo,132a

F. Petrucci,134a,134bD. Petschull,41M. Petteni,142R. Pezoa,31bA. Phan,86A. W. Phillips,27P. W. Phillips,129 G. Piacquadio,29E. Piccaro,75M. Piccinini,19a,19bA. Pickford,53R. Piegaia,26J. E. Pilcher,30A. D. Pilkington,82 J. Pina,124a,cM. Pinamonti,164a,164cA. Pinder,118J. L. Pinfold,2J. Ping,32cB. Pinto,124a,cO. Pirotte,29C. Pizio,89a,89b

F. Podlyski,33L. Poggioli,115T. Poghosyan,20M. Pohl,49F. Polci,55G. Polesello,119aA. Policicchio,138A. Polini,19a J. Poll,75V. Polychronakos,24D. M. Pomarede,136D. Pomeroy,22K. Pomme`s,29L. Pontecorvo,132aB. G. Pope,88 G. A. Popeneciu,25aD. S. Popovic,12aA. Poppleton,29X. Portell Bueso,48R. Porter,163C. Posch,21G. E. Pospelov,99 S. Pospisil,127I. N. Potrap,99C. J. Potter,149C. T. Potter,85G. Poulard,29J. Poveda,172R. Prabhu,77P. Pralavorio,83 S. Prasad,57R. Pravahan,7S. Prell,64K. Pretzl,16L. Pribyl,29D. Price,61L. E. Price,5M. J. Price,29P. M. Prichard,73

D. Prieur,123M. Primavera,72aK. Prokofiev,29F. Prokoshin,31bS. Protopopescu,24J. Proudfoot,5X. Prudent,43 H. Przysiezniak,4S. Psoroulas,20E. Ptacek,114J. Purdham,87M. Purohit,24,vP. Puzo,115Y. Pylypchenko,117J. Qian,87

Z. Qian,83Z. Qin,41A. Quadt,54D. R. Quarrie,14W. B. Quayle,172F. Quinonez,31aM. Raas,104V. Radescu,58b B. Radics,20T. Rador,18aF. Ragusa,89a,89bG. Rahal,177A. M. Rahimi,109S. Rajagopalan,24S. Rajek,42 M. Rammensee,48M. Rammes,141M. Ramstedt,146a,146bK. Randrianarivony,28P. N. Ratoff,71F. Rauscher,98 E. Rauter,99M. Raymond,29A. L. Read,117D. M. Rebuzzi,119a,119bA. Redelbach,173G. Redlinger,24R. Reece,120

K. Reeves,40A. Reichold,105E. Reinherz-Aronis,153A. Reinsch,114I. Reisinger,42D. Reljic,12aC. Rembser,29 Z. L. Ren,151A. Renaud,115P. Renkel,39B. Rensch,35M. Rescigno,132aS. Resconi,89aB. Resende,136P. Reznicek,98

R. Rezvani,158A. Richards,77R. Richter,99E. Richter-Was,38,xM. Ridel,78S. Rieke,81M. Rijpstra,105 M. Rijssenbeek,148A. Rimoldi,119a,119bL. Rinaldi,19aR. R. Rios,39I. Riu,11G. Rivoltella,89a,89bF. Rizatdinova,112

E. Rizvi,75S. H. Robertson,85,iA. Robichaud-Veronneau,49D. Robinson,27J. E. M. Robinson,77M. Robinson,114 A. Robson,53J. G. Rocha de Lima,106C. Roda,122a,122bD. Roda Dos Santos,29S. Rodier,80D. Rodriguez,162 Y. Rodriguez Garcia,15A. Roe,54S. Roe,29O. Røhne,117V. Rojo,1S. Rolli,161A. Romaniouk,96V. M. Romanov,65

G. Romeo,26D. Romero Maltrana,31aL. Roos,78E. Ros,167S. Rosati,138M. Rose,76G. A. Rosenbaum,158 E. I. Rosenberg,64P. L. Rosendahl,13L. Rosselet,49V. Rossetti,11E. Rossi,102a,102bL. P. Rossi,50aL. Rossi,89a,89b M. Rotaru,25aI. Roth,171J. Rothberg,138I. Rottla¨nder,20D. Rousseau,115C. R. Royon,136A. Rozanov,83Y. Rozen,152 X. Ruan,115I. Rubinskiy,41B. Ruckert,98N. Ruckstuhl,105V. I. Rud,97G. Rudolph,62F. Ru¨hr,6A. Ruiz-Martinez,64

E. Rulikowska-Zarebska,37V. Rumiantsev,91,aL. Rumyantsev,65K. Runge,48O. Runolfsson,20Z. Rurikova,48 N. A. Rusakovich,65D. R. Rust,61J. P. Rutherfoord,6C. Ruwiedel,14P. Ruzicka,125Y. F. Ryabov,121 V. Ryadovikov,128P. Ryan,88M. Rybar,126G. Rybkin,115N. C. Ryder,118S. Rzaeva,10A. F. Saavedra,150I. Sadeh,153 H.F-W. Sadrozinski,137R. Sadykov,65F. Safai Tehrani,132a,132bH. Sakamoto,155G. Salamanna,105A. Salamon,133a

M. Saleem,111D. Salihagic,99A. Salnikov,143J. Salt,167B. M. Salvachua Ferrando,5D. Salvatore,36a,36b F. Salvatore,149A. Salzburger,29D. Sampsonidis,154B. H. Samset,117H. Sandaker,13H. G. Sander,81M. P. Sanders,98

M. Sandhoff,174P. Sandhu,158T. Sandoval,27R. Sandstroem,105S. Sandvoss,174D. P. C. Sankey,129A. Sansoni,47 C. Santamarina Rios,85C. Santoni,33R. Santonico,133a,133bH. Santos,124aJ. G. Saraiva,124a,cT. Sarangi,172 E. Sarkisyan-Grinbaum,7F. Sarri,122a,122bG. Sartisohn,174O. Sasaki,66T. Sasaki,66N. Sasao,68I. Satsounkevitch,90

G. Sauvage,4J. B. Sauvan,115P. Savard,158,eV. Savinov,123P. Savva,9L. Sawyer,24,jD. H. Saxon,53L. P. Says,33 C. Sbarra,19a,19bA. Sbrizzi,19a,19bO. Scallon,93D. A. Scannicchio,163J. Schaarschmidt,43P. Schacht,99U. Scha¨fer,81

S. Schaetzel,58bA. C. Schaffer,115D. Schaile,98R. D. Schamberger,148A. G. Schamov,107V. Scharf,58a V. A. Schegelsky,121D. Scheirich,87M. I. Scherzer,14C. Schiavi,50a,50bJ. Schieck,98M. Schioppa,36a,36b S. Schlenker,29J. L. Schlereth,5E. Schmidt,48M. P. Schmidt,175,aK. Schmieden,20C. Schmitt,81M. Schmitz,20 A. Scho¨ning,58bM. Schott,29D. Schouten,142J. Schovancova,125M. Schram,85A. Schreiner,63C. Schroeder,81 N. Schroer,58cS. Schuh,29G. Schuler,29J. Schultes,174H.-C. Schultz-Coulon,58aH. Schulz,15J. W. Schumacher,20 M. Schumacher,48B. A. Schumm,137Ph. Schune,136C. Schwanenberger,82A. Schwartzman,143Ph. Schwemling,78

R. Schwienhorst,88R. Schwierz,43J. Schwindling,136W. G. Scott,129J. Searcy,114E. Sedykh,121E. Segura,11 S. C. Seidel,103A. Seiden,137F. Seifert,43J. M. Seixas,23aG. Sekhniaidze,102aD. M. Seliverstov,121B. Sellden,146a

G. Sellers,73M. Seman,144bN. Semprini-Cesari,19a,19bC. Serfon,98L. Serin,115R. Seuster,99H. Severini,111 M. E. Sevior,86A. Sfyrla,29E. Shabalina,54M. Shamim,114L. Y. Shan,32aJ. T. Shank,21Q. T. Shao,86M. Shapiro,14 P. B. Shatalov,95L. Shaver,6C. Shaw,53K. Shaw,164a,164cD. Sherman,175P. Sherwood,77A. Shibata,108S. Shimizu,29 M. Shimojima,100T. Shin,56A. Shmeleva,94M. J. Shochet,30D. Short,118M. A. Shupe,6P. Sicho,125A. Sidoti,15

A. Siebel,174F. Siegert,48J. Siegrist,14Dj. Sijacki,12aO. Silbert,171J. Silva,124a,cY. Silver,153D. Silverstein,143 S. B. Silverstein,146aV. Simak,127Lj. Simic,12aS. Simion,115B. Simmons,77M. Simonyan,35P. Sinervo,158 N. B. Sinev,114V. Sipica,141G. Siragusa,81A. N. Sisakyan,65S.Yu. Sivoklokov,97J. Sjo¨lin,146a,146bT. B. Sjursen,13 L. A. Skinnari,14K. Skovpen,107P. Skubic,111N. Skvorodnev,22M. Slater,17T. Slavicek,127K. Sliwa,161T. J. Sloan,71

J. Sloper,29V. Smakhtin,171S.Yu. Smirnov,96L. N. Smirnova,97O. Smirnova,79B. C. Smith,57D. Smith,143 K. M. Smith,53M. Smizanska,71K. Smolek,127A. A. Snesarev,94S. W. Snow,82J. Snow,111J. Snuverink,105

S. Snyder,24M. Soares,124aR. Sobie,169,iJ. Sodomka,127A. Soffer,153C. A. Solans,167M. Solar,127J. Solc,127 U. Soldevila,167E. Solfaroli Camillocci,132a,132bA. A. Solodkov,128O. V. Solovyanov,128J. Sondericker,24N. Soni,2

V. Sopko,127B. Sopko,127M. Sorbi,89a,89bM. Sosebee,7A. Soukharev,107S. Spagnolo,72a,72bF. Spano`,34 R. Spighi,19aG. Spigo,29F. Spila,132a,132bE. Spiriti,134aR. Spiwoks,29M. Spousta,126T. Spreitzer,158B. Spurlock,7

R. D. St. Denis,53T. Stahl,141J. Stahlman,120R. Stamen,58aE. Stanecka,29R. W. Stanek,5C. Stanescu,134a S. Stapnes,117E. A. Starchenko,128J. Stark,55P. Staroba,125P. Starovoitov,91A. Staude,98P. Stavina,144a

G. Stavropoulos,14G. Steele,53P. Steinbach,43P. Steinberg,24I. Stekl,127B. Stelzer,142H. J. Stelzer,41 O. Stelzer-Chilton,159aH. Stenzel,52K. Stevenson,75G. A. Stewart,53T. Stockmanns,20M. C. Stockton,29 K. Stoerig,48G. Stoicea,25aS. Stonjek,99P. Strachota,126A. R. Stradling,7A. Straessner,43J. Strandberg,87 S. Strandberg,146a,146bA. Strandlie,117M. Strang,109E. Strauss,143M. Strauss,111P. Strizenec,144bR. Stro¨hmer,173 D. M. Strom,114J. A. Strong,76,aR. Stroynowski,39J. Strube,129B. Stugu,13I. Stumer,24,aJ. Stupak,148P. Sturm,174

D. A. Soh,151,qD. Su,143S. Subramania,2Y. Sugaya,116T. Sugimoto,101C. Suhr,106K. Suita,67M. Suk,126 V. V. Sulin,94S. Sultansoy,3dT. Sumida,29X. Sun,55J. E. Sundermann,48K. Suruliz,164a,164bS. Sushkov,11 G. Susinno,36a,36bM. R. Sutton,139Y. Suzuki,66Yu.M. Sviridov,128S. Swedish,168I. Sykora,144aT. Sykora,126 B. Szeless,29J. Sa´nchez,167D. Ta,105K. Tackmann,29A. Taffard,163R. Tafirout,159aA. Taga,117N. Taiblum,153

Y. Takahashi,101H. Takai,24R. Takashima,69H. Takeda,67T. Takeshita,140M. Talby,83A. Talyshev,107 M. C. Tamsett,24J. Tanaka,155R. Tanaka,115S. Tanaka,131S. Tanaka,66Y. Tanaka,100K. Tani,67N. Tannoury,83 G. P. Tappern,29S. Tapprogge,81D. Tardif,158S. Tarem,152F. Tarrade,24G. F. Tartarelli,89aP. Tas,126M. Tasevsky,125

E. Tassi,36a,36bM. Tatarkhanov,14C. Taylor,77F. E. Taylor,92G. Taylor,137G. N. Taylor,86W. Taylor,159b M. Teixeira Dias Castanheira,75P. Teixeira-Dias,76K. K. Temming,48H. Ten Kate,29P. K. Teng,151 Y. D. Tennenbaum-Katan,152S. Terada,66K. Terashi,155J. Terron,80M. Terwort,41,oM. Testa,47R. J. Teuscher,158,i

C. M. Tevlin,82J. Thadome,174J. Therhaag,20T. Theveneaux-Pelzer,78M. Thioye,175S. Thoma,48J. P. Thomas,17 E. N. Thompson,84P. D. Thompson,17P. D. Thompson,158A. S. Thompson,53E. Thomson,120M. Thomson,27

R. P. Thun,87T. Tic,125V. O. Tikhomirov,94Y. A. Tikhonov,107C.J.W.P. Timmermans,104P. Tipton,175 F. J. Tique Aires Viegas,29S. Tisserant,83J. Tobias,48B. Toczek,37T. Todorov,4S. Todorova-Nova,161 B. Toggerson,163J. Tojo,66S. Toka´r,144aK. Tokunaga,67K. Tokushuku,66K. Tollefson,88M. Tomoto,101 L. Tompkins,14K. Toms,103A. Tonazzo,134a,134bG. Tong,32aA. Tonoyan,13C. Topfel,16N. D. Topilin,65 I. Torchiani,29E. Torrence,114E. Torro´ Pastor,167J. Toth,83,wF. Touchard,83D. R. Tovey,139D. Traynor,75 T. Trefzger,173J. Treis,20L. Tremblet,29A. Tricoli,29I. M. Trigger,159aS. Trincaz-Duvoid,78T. N. Trinh,78 M. F. Tripiana,70N. Triplett,64W. Trischuk,158A. Trivedi,24,vB. Trocme´,55C. Troncon,89aM. Trottier-McDonald,142

A. Trzupek,38C. Tsarouchas,29J.C-L. Tseng,118M. Tsiakiris,105P. V. Tsiareshka,90D. Tsionou,4G. Tsipolitis,9 V. Tsiskaridze,48E. G. Tskhadadze,51I. I. Tsukerman,95V. Tsulaia,123J.-W. Tsung,20S. Tsuno,66D. Tsybychev,148

A. Tua,139J. M. Tuggle,30M. Turala,38D. Turecek,127I. Turk Cakir,3eE. Turlay,105P. M. Tuts,34A. Tykhonov,74 M. Tylmad,146a,146bM. Tyndel,129D. Typaldos,17H. Tyrvainen,29G. Tzanakos,8K. Uchida,20I. Ueda,155R. Ueno,28

M. Ugland,13M. Uhlenbrock,20M. Uhrmacher,54F. Ukegawa,160G. Unal,29D. G. Underwood,5A. Undrus,24 G. Unel,163Y. Unno,66D. Urbaniec,34E. Urkovsky,153P. Urquijo,49P. Urrejola,31aG. Usai,7M. Uslenghi,119a,119b

L. Vacavant,83V. Vacek,127B. Vachon,85S. Vahsen,14C. Valderanis,99J. Valenta,125P. Valente,132a S. Valentinetti,19a,19bS. Valkar,126E. Valladolid Gallego,167S. Vallecorsa,152J. A. Valls Ferrer,167 H. van der Graaf,105E. van der Kraaij,105E. van der Poel,105D. van der Ster,29B. Van Eijk,105N. van Eldik,84 P. van Gemmeren,5Z. van Kesteren,105I. van Vulpen,105W. Vandelli,29G. Vandoni,29A. Vaniachine,5P. Vankov,41 F. Vannucci,78F. Varela Rodriguez,29R. Vari,132aE. W. Varnes,6D. Varouchas,14A. Vartapetian,7K. E. Varvell,150

V. I. Vassilakopoulos,56F. Vazeille,33G. Vegni,89a,89bJ. J. Veillet,115C. Vellidis,8F. Veloso,124aR. Veness,29 S. Veneziano,132aA. Ventura,72a,72bD. Ventura,138S. Ventura,47M. Venturi,48N. Venturi,16V. Vercesi,119a M. Verducci,138W. Verkerke,105J. C. Vermeulen,105A. Vest,43M. C. Vetterli,142,eI. Vichou,165T. Vickey,145b,y G. H. A. Viehhauser,118S. Viel,168M. Villa,19a,19bM. Villaplana Perez,167E. Vilucchi,47M. G. Vincter,28E. Vinek,29

V. B. Vinogradov,65M. Virchaux,136,aS. Viret,33J. Virzi,14A. Vitale,19a,19bO. Vitells,171I. Vivarelli,48 F. Vives Vaque,11S. Vlachos,9M. Vlasak,127N. Vlasov,20A. Vogel,20P. Vokac,127M. Volpi,11G. Volpini,89a H. von der Schmitt,99J. von Loeben,99H. von Radziewski,48E. von Toerne,20V. Vorobel,126A. P. Vorobiev,128

V. Vorwerk,11M. Vos,167R. Voss,29T. T. Voss,174J. H. Vossebeld,73A. S. Vovenko,128N. Vranjes,12a M. Vranjes Milosavljevic,12aV. Vrba,125M. Vreeswijk,105T. Vu Anh,81R. Vuillermet,29I. Vukotic,115 W. Wagner,174P. Wagner,120H. Wahlen,174J. Wakabayashi,101J. Walbersloh,42S. Walch,87J. Walder,71R. Walker,98

W. Walkowiak,141R. Wall,175P. Waller,73C. Wang,44H. Wang,172J. Wang,32dJ. C. Wang,138R. Wang,103 S. M. Wang,151A. Warburton,85C. P. Ward,27M. Warsinsky,48P. M. Watkins,17A. T. Watson,17M. F. Watson,17

G. Watts,138S. Watts,82A. T. Waugh,150B. M. Waugh,77J. Weber,42M. Weber,129M. S. Weber,16P. Weber,54 A. R. Weidberg,118J. Weingarten,54C. Weiser,48H. Wellenstein,22P. S. Wells,29M. Wen,47T. Wenaus,24 S. Wendler,123Z. Weng,151,qT. Wengler,29S. Wenig,29N. Wermes,20M. Werner,48P. Werner,29M. Werth,163

M. Wessels,58aK. Whalen,28S. J. Wheeler-Ellis,163S. P. Whitaker,21A. White,7M. J. White,86S. White,24 S. R. Whitehead,118D. Whiteson,163D. Whittington,61F. Wicek,115D. Wicke,174F. J. Wickens,129 W. Wiedenmann,172M. Wielers,129P. Wienemann,20C. Wiglesworth,73L. A. M. Wiik,48A. Wildauer,167 M. A. Wildt,41,oI. Wilhelm,126H. G. Wilkens,29J. Z. Will,98E. Williams,34H. H. Williams,120W. Willis,34 S. Willocq,84J. A. Wilson,17M. G. Wilson,143A. Wilson,87I. Wingerter-Seez,4S. Winkelmann,48F. Winklmeier,29 M. Wittgen,143M. W. Wolter,38H. Wolters,124a,gG. Wooden,118B. K. Wosiek,38J. Wotschack,29M. J. Woudstra,84 K. Wraight,53C. Wright,53B. Wrona,73S. L. Wu,172X. Wu,49Y. Wu,32bE. Wulf,34R. Wunstorf,42B. M. Wynne,45

L. Xaplanteris,9S. Xella,35S. Xie,48Y. Xie,32aC. Xu,32bD. Xu,139G. Xu,32aB. Yabsley,150M. Yamada,66 A. Yamamoto,66K. Yamamoto,64S. Yamamoto,155T. Yamamura,155J. Yamaoka,44T. Yamazaki,155Y. Yamazaki,67

Z. Yan,21H. Yang,87U. K. Yang,82Y. Yang,61Y. Yang,32aZ. Yang,146a,146bS. Yanush,91W-M. Yao,14Y. Yao,14 Y. Yasu,66J. Ye,39S. Ye,24M. Yilmaz,3cR. Yoosoofmiya,123K. Yorita,170R. Yoshida,5C. Young,143S. Youssef,21

D. Yu,24J. Yu,7J. Yu,32c,zL. Yuan,32a,aaA. Yurkewicz,148V. G. Zaets,128R. Zaidan,63A. M. Zaitsev,128 Z. Zajacova,29Yo.K. Zalite,121L. Zanello,132a,132bP. Zarzhitsky,39A. Zaytsev,107M. Zdrazil,14C. Zeitnitz,174 M. Zeller,175P. F. Zema,29A. Zemla,38C. Zendler,20A. V. Zenin,128O. Zenin,128T. Zˇ enisˇ,144aZ. Zenonos,122a,122b

S. Zenz,14D. Zerwas,115G. Zevi della Porta,57Z. Zhan,32dD. Zhang,32bH. Zhang,88J. Zhang,5X. Zhang,32d Z. Zhang,115L. Zhao,108T. Zhao,138Z. Zhao,32bA. Zhemchugov,65S. Zheng,32aJ. Zhong,151,bbB. Zhou,87

N. Zhou,163Y. Zhou,151C. G. Zhu,32dH. Zhu,41Y. Zhu,172X. Zhuang,98V. Zhuravlov,99D. Zieminska,61 B. Zilka,144aR. Zimmermann,20S. Zimmermann,20S. Zimmermann,48M. Ziolkowski,141R. Zitoun,4L. Zˇ ivkovic´,34

V. V. Zmouchko,128,aG. Zobernig,172A. Zoccoli,19a,19bY. Zolnierowski,4A. Zsenei,29M. zur Nedden,15 V. Zutshi,106and L. Zwalinski29

(ATLAS Collaboration)

1_{University at Albany, 1400 Washington Ave, Albany, New York 12222, USA}

2_{University of Alberta, Department of Physics, Centre for Particle Physics, Edmonton, AB T6G 2G7, Canada} 3a_{Ankara University, Faculty of Sciences, Department of Physics, TR 061000 Tandogan, Ankara, Turkey}

3b_{Dumlupinar University, Faculty of Arts and Sciences, Department of Physics, Kutahya, Turkey} 3c_{Gazi University, Faculty of Arts and Sciences, Department of Physics, 06500, Teknikokullar, Ankara, Turkey}

3d_{TOBB University of Economics and Technology, Faculty of Arts and Sciences, Division of Physics, 06560, Sogutozu, Ankara, Turkey} 3e

Turkish Atomic Energy Authority, 06530, Lodumlu, Ankara, Turkey

4_{LAPP, Universite´ de Savoie, CNRS/IN2P3, Annecy-le-Vieux, France}

5_{Argonne National Laboratory, High Energy Physics Division, 9700 S. Cass Avenue, Argonne Illinois 60439, USA} 6_{University of Arizona, Department of Physics, Tucson, Arizona 85721, USA}

7_{The University of Texas at Arlington, Department of Physics, Box 19059, Arlington, Texas 76019, USA}

8_{University of Athens, Nuclear & Particle Physics, Department of Physics, Panepistimiopouli, Zografou, GR 15771 Athens, Greece} 9_{National Technical University of Athens, Physics Department, 9-Iroon Polytechniou, GR 15780 Zografou, Greece}

10_{Institute of Physics, Azerbaijan Academy of Sciences, H. Javid Avenue 33, AZ 143 Baku, Azerbaijan}

11_{Institut de Fı´sica d’Altes Energies, IFAE, Edifici Cn, Universitat Auto`noma de Barcelona, ES - 08193 Bellaterra (Barcelona), Spain} 12a_{University of Belgrade, Institute of Physics, P.O. Box 57, 11001 Belgrade, Serbia}

12b_{Vinca Institute of Nuclear Sciences, M. Petrovica Alasa 12-14, 11000 Belgrade, Serbia} 13_{University of Bergen, Department for Physics and Technology, Allegaten 55, NO - 5007 Bergen, Norway}

14_{Lawrence Berkeley National Laboratory and University of California, Physics Division,}

MS50B-6227, 1 Cyclotron Road, Berkeley, California 94720, USA

15_{Humboldt University, Institute of Physics, Berlin, Newtonstr. 15, D-12489 Berlin, Germany} 16_{University of Bern, Albert Einstein Center for Fundamental Physics, Laboratory for High Energy Physics,}

Sidlerstrasse 5, CH - 3012 Bern, Switzerland

17_{University of Birmingham, School of Physics and Astronomy, Edgbaston, Birmingham B15 2TT, United Kingdom} 18a_{Bogazici University, Faculty of Sciences, Department of Physics, TR - 80815 Bebek-Istanbul, Turkey} 18b_{Dogus University, Faculty of Arts and Sciences, Department of Physics, 34722, Kadikoy, Istanbul, Turkey} 18c_{Gaziantep University, Faculty of Engineering, Department of Physics Engineering, 27310, Sehitkamil, Gaziantep, Turkey}