Literature DB >> 26190939

Measurement of the [Formula: see text] production cross-section in proton-proton collisions via the decay [Formula: see text].

R Aaij1, C Abellán Beteta2, B Adeva3, M Adinolfi4, A Affolder5, Z Ajaltouni6, S Akar7, J Albrecht8, F Alessio9, M Alexander10, S Ali1, G Alkhazov11, P Alvarez Cartelle3, A A Alves12, S Amato13, S Amerio14, Y Amhis15, L An16, L Anderlini17, J Anderson2, R Andreassen18, M Andreotti19, J E Andrews20, R B Appleby21, O Aquines Gutierrez22, F Archilli9, A Artamonov23, M Artuso24, E Aslanides7, G Auriemma25, M Baalouch6, S Bachmann26, J J Back27, A Badalov28, C Baesso29, W Baldini19, R J Barlow21, C Barschel9, S Barsuk15, W Barter30, V Batozskaya31, V Battista32, A Bay32, L Beaucourt33, J Beddow10, F Bedeschi34, I Bediaga35, S Belogurov36, K Belous23, I Belyaev36, E Ben-Haim37, G Bencivenni38, S Benson9, J Benton4, A Berezhnoy39, R Bernet2, M-O Bettler30, M van Beuzekom1, A Bien26, S Bifani40, T Bird21, A Bizzeti17, P M Bjørnstad21, T Blake27, F Blanc32, J Blouw22, S Blusk24, V Bocci25, A Bondar41, N Bondar42, W Bonivento43, S Borghi21, A Borgia24, M Borsato15, T J V Bowcock5, E Bowen2, C 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Abstract

The production of the [Formula: see text] state in proton-proton collisions is probed via its decay to the [Formula: see text] final state with the LHCb detector, in the rapidity range [Formula: see text] and in the meson transverse-momentum range [Formula: see text]. The cross-section for prompt production of [Formula: see text] mesons relative to the prompt [Formula: see text] cross-section is measured, for the first time, to be [Formula: see text] at a centre-of-mass energy [Formula: see text] using data corresponding to an integrated luminosity of 0.7 fb[Formula: see text], and [Formula: see text] at [Formula: see text] using 2.0 fb[Formula: see text]. The uncertainties quoted are, in order, statistical, systematic, and that on the ratio of branching fractions of the [Formula: see text] and [Formula: see text] decays to the [Formula: see text] final state. In addition, the inclusive branching fraction of [Formula: see text]-hadron decays into [Formula: see text] mesons is measured, for the first time, to be [Formula: see text], where the third uncertainty includes also the uncertainty on the [Formula: see text] inclusive branching fraction from [Formula: see text]-hadron decays. The difference between the [Formula: see text] and [Formula: see text] meson masses is determined to be [Formula: see text].

Entities:  

Year:  2015        PMID: 26190939      PMCID: PMC4498677          DOI: 10.1140/epjc/s10052-015-3502-x

Source DB:  PubMed          Journal:  Eur Phys J C Part Fields        ISSN: 1434-6044            Impact factor:   4.590


Introduction

High centre-of-mass energies available in proton-proton collisions at the LHC allow models describing charmonium production to be tested. We distinguish promptly produced charmonia from those originating from -hadron decays. Promptly produced charmonia include charmonia directly produced in parton interactions and those originating from the decays of heavier quarkonium states, which are in turn produced in parton interactions. While measurements of and meson production rates at the LHC  [1-6] are successfully described by next-to-leading order (NLO) calculations in non-relativistic quantum chromodynamics (QCD) [7], the observation of small or no polarization in meson prompt production [2] remains unexplained within the available theoretical framework [8]. The investigation of the lowest state, the meson, can provide important additional information on the long-distance matrix elements [9, 10]. In particular, the heavy-quark spin-symmetry relation between the and matrix elements can be tested, with the NLO calculations predicting a different dependence of the production rates on charmonium transverse momentum, , for spin singlet () and triplet (, ) states [11-13]. Thus, a measurement of the dependence of the production rate, in particular in the low region, can have important implications. Recent LHCb results on prompt production of states [14] provide information on the production of the P-wave states and at low , using the well-understood production as a reference. A measurement of the cross-section of prompt production may allow an important comparison with the results and yields indirect information on the production of heavier states. At LHC energies, all -hadron species are produced, including weakly decaying , , , mesons, -baryons, and their charge-conjugate states. A previous study of inclusive meson production in -hadron decays by the CLEO experiment, based on a sample of and mesons, placed an upper limit on the combined inclusive branching fraction of and meson decays into final states containing an meson of at  confidence level [15]. Exclusive analyses of and meson production in -hadron decays using the decay mode have been performed by the BaBar experiment [16], by the Belle experiment [17] and recently by the LHCb experiment [18]. In the present paper we report the first measurement of the cross-section for the prompt production of mesons in collisions at and centre-of-mass energies, as well as the -hadron inclusive branching fraction into final states. This paper extends the scope of previous charmonium production studies reported by LHCb, which were restricted to the use of or decays to dimuon final states [1, 2, 14, 19]. In order to explore states that do not have quantum numbers, while avoiding reconstruction of radiative decays with low-energy photons, the authors of Ref. [20] suggested to investigate hadronic final states. In the present analysis, we reconstruct mesons decaying into the final state. All well-established charmonium states decay to final states [20, 21]. With its powerful charged-hadron identification and high charmonium production rate, the LHCb experiment is well positioned for these studies. The measurements are performed relative to the topologically and kinematically similar channel, which allows partial cancellation of systematic uncertainties in the ratio. This is the first such inclusive analysis using decays to hadronic final states performed at a hadron collider. In addition, a departure in excess of two standard deviations between the recent BES III results [22, 23] and earlier measurements [21] motivates the determination of the difference between and meson masses using a different technique and final state. In the present analysis, the low-background sample of charmonia produced in -hadron decays is used to determine and the natural width, . In Sect. 2 we present the LHCb detector and data sample used for the analysis. Section 3 describes the analysis details, while the systematic uncertainties are discussed in Sect. 4. The results are given in Sect. 5 and summarized in Sect. 6.

LHCb detector and data sample

The LHCb detector [24] is a single-arm forward spectrometer covering the pseudorapidity range , designed for the study of particles containing or quarks. The detector includes a high-precision tracking system consisting of a silicon-strip vertex detector surrounding the pp interaction region, a large-area silicon-strip detector located upstream of a dipole magnet with a bending power of about 4 , and three stations of silicon-strip detectors and straw drift tubes placed downstream of the magnet. The combined tracking system provides a momentum measurement with a relative uncertainty that varies from 0.4 % at low momentum to 0.6% at 100 , and an impact parameter measurement with a resolution of 20 for charged particles with large transverse momentum. Different types of charged hadrons are distinguished using information from two ring-imaging Cherenkov detectors. Photon, electron, and hadron candidates are identified by a system consisting of scintillating-pad and preshower detectors, an electromagnetic calorimeter, and a hadronic calorimeter. Muons are identified by a system composed of alternating layers of iron and multiwire proportional chambers. The trigger consists of a hardware stage, based on information from the calorimeter and muon systems, followed by a software stage, which applies a full event reconstruction. Events enriched in signal decays are selected by the hardware trigger, based on the presence of a single high-energy deposit in the calorimeter. The subsequent software trigger specifically rejects high-multiplicity events and selects events with two oppositely charged particles having good track-fit quality and transverse momentum larger than 1.9. Proton and antiproton candidates are identified using the information from Cherenkov and tracking detectors [25]. Selected and candidates are required to form a good quality vertex. In order to further suppress the dominant background from accidental combinations of random tracks (combinatorial background), charmonium candidates are required to have high transverse momentum, . The present analysis uses collision data recorded by the LHCb experiment at , corresponding to an integrated luminosity of 0.7 fb, and at , corresponding to an integrated luminosity of 2.0 fb. Simulated samples of and mesons decaying to the final state, and decaying to the final state, are used to estimate efficiency ratios, the contribution from the decay , and to evaluate systematic uncertainties. In the simulation, pp collisions are generated using Pythia  [26] with a specific LHCb configuration [27]. Decays of hadronic particles are described by EvtGen  [28], in which final-state radiation is generated using Photos  [29]. The interaction of the generated particles with the detector and its response are implemented using the Geant4 toolkit [30, 31] as described in Ref. [32].

Signal selection and data analysis

The signal selection is largely performed at the trigger level. The offline analysis, in addition, requires the transverse momentum of and to be , and restricts charmonium candidates to the rapidity range . Discrimination between promptly produced charmonium candidates and those from b-hadron decays is achieved using the pseudo-decay time , where is the distance along the beam axis between the corresponding collision vertex (primary vertex) and the candidate decay vertex, M is the candidate mass, and is the longitudinal component of its momentum. Candidates with are classified as prompt, while those with are classified as having originated from -hadron decays. For charmonium candidates from -hadron decays, a significant displacement of the proton tracks with respect to the primary vertex is also required. The selected samples of prompt charmonium candidates and charmonia from -hadron decays have some candidates wrongly classified (cross-feed). The cross-feed probability is estimated using simulated samples and is scaled using the observed signal candidate yields in data. The cross-feed component is subtracted to obtain the ratio of produced and mesons decaying into the final state. Corrections range from 2% to 3% for the ratio of promptly produced and mesons, and from 8% to 10% for the ratio of charmonia produced in -hadron decays. The ratios of signal yields are expressed in terms of ratios of cross-sections multiplied by the decay branching fractions aswhere and are the numbers of charmonia from prompt production and -hadron decays, respectively. The simulation describes the kinematic-related differences between the and decay modes reasonably well and predicts that the relative efficiencies for selecting and reconstructing and mesons differ by less than 0.5%. Equal efficiencies are assumed for the and meson reconstruction and selection criteria. The efficiency for selecting and reconstructing prompt mesons is corrected for polarization effects, as a function of rapidity and , according to Ref. [2]. The numbers of reconstructed and candidates are extracted from an extended maximum likelihood fit to the unbinned invariant mass distribution. The peak position and the mass difference are fitted in the sample of charmonia from -hadron decays, where the signal is more prominent because of the reduced background level due to charmonium decay-vertex displacement requirements. The results are then used to apply Gaussian constraints in the fit to the invariant mass spectrum in the prompt production analysis, where the signal-to-background ratio is smaller, due to large combinatorial backgrounds. The signal shape is defined by the detector response, combined with the natural width in the case of the resonance. The detector response is described using two Gaussian functions with a common mean value. In the description of each resonance, the ratio of narrow to wide Gaussian widths, , the fraction of the narrow Gaussian component, and the ratio of the and narrow Gaussian widths, , are fixed in the fit to the values observed in simulation. The only resolution parameter left free in the fit to the low-background sample from -hadron decays, , is fixed to its central value in the fit to the prompt sample. The natural width of the resonance is also extracted from the fit to the -hadron decays sample, and is fixed to that value in the prompt production analysis. Gaussian constraints on the meson mass and the mass difference from the fit to the -hadron decays sample are applied in the prompt production analysis. The fit with free mass values gives consistent results. The combinatorial background is parametrized by an exponential function in the fit of the sample from -hadron decays, and by a third-order polynomial in the fit to the prompt sample. Combinations of from the decay potentially affect the region close to the signal; hence, this contribution is specifically included in the background description. It produces a non-peaking contribution, and its mass distribution is described by a square-root shape to account for the phase space available to the system from the decay, convolved with two Gaussian functions to account for the detector mass resolution. In the fit to the invariant mass spectrum, the normalization of this contribution is fixed using the number of candidates found in the signal peak and the ratios of branching fractions and efficiencies for the and decay modes. The invariant mass spectra for charmonium candidates from -hadron decays in the 7 and 8 data are observed to be consistent. The two data samples are therefore combined and the resulting spectrum is shown in Fig. 1 with the fit overlaid.
Fig. 1

Proton–antiproton invariant mass spectrum for candidates originating from a secondary vertex and reconstructed in and data. The solid blue line represents the best-fit curve, the long-dashed red line corresponds to the signal, the dashed-dotted cyan line corresponds to the signal, and the dashed magenta line corresponds to the small contribution from decays with the pion unreconstructed. The dotted blue line corresponds to the combinatorial background. The distribution of the difference between data points and the fit function is shown in the bottom panel

Proton–antiproton invariant mass spectrum for candidates originating from a secondary vertex and reconstructed in and data. The solid blue line represents the best-fit curve, the long-dashed red line corresponds to the signal, the dashed-dotted cyan line corresponds to the signal, and the dashed magenta line corresponds to the small contribution from decays with the pion unreconstructed. The dotted blue line corresponds to the combinatorial background. The distribution of the difference between data points and the fit function is shown in the bottom panel The meson signal is modelled using a double-Gaussian function. The signal is modelled using a relativistic Breit–Wigner function convolved with a double-Gaussian function. The background contribution from the decay with an unreconstructed pion, is small. The fit yields signal decays and signal decays. The results of the fit to the invariant mass spectrum of the prompt sample are shown in Fig. 2a and b for data collected at and , respectively. The fits yield and signal decays for the data taken at , and and signal decays for the data.
Fig. 2

Proton–antiproton invariant mass spectrum for candidates originating from a primary vertex (upper panel in each plot), and distribution of differences between data and the background distribution resulting from the fit (lower panel in each plot), in data at a and b centre-of-mass energies. Distributions on the upper panels are zero-suppressed

Proton–antiproton invariant mass spectrum for candidates originating from a primary vertex (upper panel in each plot), and distribution of differences between data and the background distribution resulting from the fit (lower panel in each plot), in data at a and b centre-of-mass energies. Distributions on the upper panels are zero-suppressed In order to assess the quality of these unbinned fits to the invariant mass spectra, the chisquare per degree of freedom was calculated for the binning schemes shown in Figs. 1, and 2a, b. The values are 1.3, 1.7 and 1.8, respectively. From the observed and yields, and taking into account cross-feed between the samples, the yield ratios are obtained asandfor the prompt production and charmonium production in -hadron decays. Only statistical uncertainties are given in the above ratios.

Systematic uncertainties

We consider systematic uncertainties due to limited knowledge of the detector mass resolution, the polarization, the natural width, possible differences of the prompt charmonium production spectra in data and simulation, cross-feed between the prompt charmonium sample and the charmonium sample from -hadron decays, background description and feed-down from decays. Summary of uncertainties for the yield ratio Uncertainties due to limited knowledge of the detector mass resolution are estimated by assigning the same value to the and signal description for the -hadron sample, and by varying the parameters in the prompt production analysis within their uncertainties. Uncertainties associated with the polarization in the prompt production reflect those of the polarization measurement in Ref. [2]. We evaluate a potential contribution from polarization in b-hadron decays using a BaBar study [32] of the polarization in inclusive decays of B mesons. Simulations are used to estimate the effective polarization parameter for the LHCb kinematic region where the b-hadrons have a high boost and the longitudinal polarization is significantly reduced. A conservative value for the polarization parameter of −0.2 is used to estimate the corresponding systematic uncertainty. In order to estimate the systematic uncertainty associated with the natural width, which enters the results for the prompt production analysis, the world average value of from Ref. [21] is used. Possible differences of the prompt charmonium production spectra in data and simulation are estimated by correcting the efficiency derived from simulation according to the observed distribution. The uncertainty related to the cross-feed is estimated by varying the signal yields in each sample according to their uncertainties. Uncertainties associated with the background description are estimated by using an alternative parametrization and varying the fit range. The uncertainty due to the contribution from the decay is dominated by the modelling of the invariant mass shape, and is estimated by using an alternative parametrization, which is linear instead of the square root. Possible systematic effect related to separation between prompt and -decays samples, was checked by varying the discriminant value from 80 to . The results are found to be stable under variation of the value of the discriminant, and no related systematic uncertainty is assigned. Table 1 lists the systematic uncertainties for the production yield ratio. The total systematic uncertainty is estimated as the quadratic sum of the uncertainties from the sources listed in Table 1 and, in the case of the prompt production measurement, is dominated by the uncertainty associated with the natural width. For the measurement with b-hadron decays the uncertainties associated with the background model, the polarization and the cross-feed provide significant contributions.
Table 1

Summary of uncertainties for the yield ratio

Production inPrompt production
\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$${b} $$\end{document}b-Hadron decays \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$${\sqrt{s}} = 7{~\mathrm{TeV}}$$\end{document}s=7TeV \documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$${\sqrt{s}} = 8{~\mathrm{TeV}}$$\end{document}s=8TeV
Statistical uncertainty0.0390.210.21
Systematic uncertainties
Signal resolution ratio (simulation)0.0060.040.03
Signal resolution variation0.010.01
\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$${{ J}}/{\psi } $$\end{document}J/ψ polarization0.0090.020.02
\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\Gamma _{\eta _c (1S)}$$\end{document}Γηc(1S) variation0.150.14
Prompt production spectrum0.0030.070.06
Cross-feed0.0080.010.01
Background model0.0110.090.09
Total systematic uncertainty0.0180.200.18

Results

The yield ratio for charmonium production in -hadron decays is obtained asIn all quoted results, the first uncertainty refers to the statistical contribution and the second to the systematic contribution. By correcting the yield ratio with the ratio of branching fractions  [21], the ratio of the inclusive -hadron branching fractions into and final states for charmonium transverse momentum is measured to bewhere the third uncertainty is due to that on the and branching fractions [21]. Assuming that the requirement does not bias the distribution of charmonium momentum in the -hadron rest frame, and using the branching fraction of -hadron inclusive decays into mesons from Ref. [21], , the inclusive branching fraction of from -hadron decays is derived aswhere the third uncertainty component includes also the uncertainty on the inclusive branching fraction from -hadron decays. This is the first measurement of the inclusive branching fraction of -hadrons to an meson. It is consistent with a previous 90% confidence level upper limit restricted to and decays,  [15]. The prompt production yield ratios at the different centre-of-mass energies are obtained asAfter correcting with the ratio of branching fractions  [21], the relative to prompt production rates in the kinematic regime and are found to befor the data sample collected at , andfor the data sample collected at . The third contribution to the uncertainty is due to that on the and branching fractions. The absolute prompt cross-section is calculated using the prompt cross-section measured in Refs. [2] and [3] and integrated in the kinematic range of the present analysis, and . The corresponding prompt cross-sections were determined to be for  [2], and for  [3]. The meson is assumed to be produced unpolarized. The prompt cross-sections in this kinematic region are determined to befor , andfor . Uncertainties associated with the and branching fractions, and with the cross-section measurement, are combined into the last uncertainty component, dominated by the knowledge of the branching fractions. This is the first measurement of prompt production in collisions. The cross-section for the prompt production is in agreement with the colour-singlet leading order (LO) calculations, while the predicted cross-section exceeds the observed value by two orders of magnitude when the colour-octet LO contribution is taken into account [33]. However, the NLO contribution is expected to significantly modify the LO result [11]. Future measurements at the LHC design energy of may allow a study of the energy dependence of the prompt production. The differential cross-section as a function of is obtained by fitting the invariant mass spectrum in three or four bins of . The same procedure as used to extract the cross-section is followed. The spectrum measured in Refs. [1-3] is used to obtain the spectrum for both prompt production and inclusive production in -hadron decays (Fig. 3). The dependence of the production rate exhibits similar behaviour to the meson rate in the kinematic region studied.
Fig. 3

Transverse momentum spectra for mesons (red filled circles). The spectra of from Refs. [1–3] are shown for comparison as blue open circles. Prompt production spectra are shown on a and c for data collected at and , respectively. The spectra from inclusive charmonium production in -hadron decays are shown on b and d for data collected at and , respectively

Transverse momentum spectra for mesons (red filled circles). The spectra of from Refs. [1-3] are shown for comparison as blue open circles. Prompt production spectra are shown on a and c for data collected at and , respectively. The spectra from inclusive charmonium production in -hadron decays are shown on b and d for data collected at and , respectively The performance of the LHCb tracking system and the use of a final state common to and decays allows a precise measurement of the mass difference between the two mesons. In order to measure the mass relative to the well-reconstructed and well-known mass, a momentum scale calibration [34] is applied on data, and validated with the mass measurement. The and values are extracted from the fit to the invariant mass in the low-background sample of charmonium candidates produced in -hadron decays (Fig. 1). The mass measurement,  , agrees well with the average from Ref. [21]. The mass difference is measured to beThe systematic uncertainty is dominated by the parametrization of the contribution. The mass difference agrees with the average from Ref. [21]. In addition, the natural width is obtained from the fit to the invariant mass (Fig. 1), . The systematic uncertainty is dominated by knowledge of the detector mass resolution. The value of obtained is in good agreement with the average from Ref. [21], but it is less precise than previous measurements.

Summary

In summary, production is studied using collision data corresponding to integrated luminosities of 0.7fb and 2.0fb, collected at centre-of-mass energies and , respectively. The inclusive branching fraction of -hadron decays into mesons with , relative to the corresponding fraction into mesons, is measured, for the first time, to beThe first uncertainty is statistical, the second is systematic, and the third is due to uncertainties in the branching fractions of and meson decays to the final state. The inclusive branching fraction of -hadrons into mesons is derived aswhere the third uncertainty component includes also the uncertainty on the inclusive branching fraction of -hadrons into mesons. The prompt production cross-section in the kinematic region and , relative to the corresponding meson cross-section, is measured, for the first time, to bewhere the third uncertainty component is due to uncertainties in the branching fractions of and meson decays to the final state. From these measurements, absolute prompt cross-sections are derived, yieldingwhere the third uncertainty includes an additional contribution from the meson cross-section. The above results assume that the is unpolarized. The prompt cross-section is in agreement with the colour-singlet LO calculations, whereas the colour-octet LO contribution predicts a cross-section that exceeds the observed value by two orders of magnitude [33]. The dependences of the and production rates exhibit similar behaviour in the kinematic region studied. The difference between the and meson masses is also measured, yielding , where the first uncertainty is statistical and the second is systematic. The result is consistent with the average from Ref. [21].
  11 in total

1.  Inclusive decays of B mesons to charmonium.

Authors: 
Journal:  Phys Rev D Part Fields       Date:  1995-09-01

2.  J/ψ polarization at the Tevatron and the LHC: nonrelativistic-QCD factorization at the crossroads.

Authors:  Mathias Butenschoen; Bernd A Kniehl
Journal:  Phys Rev Lett       Date:  2012-04-24       Impact factor: 9.161

3.  J/ψ(ψ') production at the Tevatron and LHC at O(α(s)4v4) in nonrelativistic QCD.

Authors:  Yan-Qing Ma; Kai Wang; Kuang-Ta Chao
Journal:  Phys Rev Lett       Date:  2011-01-27       Impact factor: 9.161

4.  Measurements of the branching fractions of [Formula: see text] decays.

Authors:  R Aaij; C Abellan Beteta; A Adametz; B Adeva; M Adinolfi; C Adrover; A Affolder; Z Ajaltouni; J Albrecht; F Alessio; M Alexander; S Ali; G Alkhazov; P Alvarez Cartelle; A A Alves; S Amato; Y Amhis; L Anderlini; J Anderson; R Andreassen; R B Appleby; O Aquines Gutierrez; F Archilli; A Artamonov; M Artuso; E Aslanides; G Auriemma; S Bachmann; J J Back; C Baesso; V Balagura; W Baldini; R J Barlow; C Barschel; S Barsuk; W Barter; Th Bauer; A Bay; J Beddow; I Bediaga; S Belogurov; K Belous; I Belyaev; E Ben-Haim; M Benayoun; G Bencivenni; S Benson; J Benton; A Berezhnoy; R Bernet; M-O Bettler; M van Beuzekom; A Bien; S Bifani; T Bird; A Bizzeti; P M Bjørnstad; T Blake; F Blanc; C Blanks; J Blouw; S Blusk; A Bobrov; V Bocci; A Bondar; N Bondar; W Bonivento; S Borghi; A Borgia; T J V Bowcock; E Bowen; C Bozzi; T Brambach; J van den Brand; J Bressieux; D Brett; M Britsch; T Britton; N H Brook; H Brown; I Burducea; A Bursche; J Buytaert; S Cadeddu; O Callot; M Calvi; M Calvo Gomez; A Camboni; P Campana; A Carbone; G Carboni; R Cardinale; A Cardini; H Carranza-Mejia; L Carson; K Carvalho Akiba; G Casse; M Cattaneo; Ch Cauet; M Charles; Ph Charpentier; P Chen; N Chiapolini; M Chrzaszcz; K Ciba; X Cid Vidal; G Ciezarek; P E L Clarke; M Clemencic; H V Cliff; J Closier; C Coca; V Coco; J Cogan; E Cogneras; P Collins; A Comerma-Montells; A Contu; A Cook; M Coombes; S Coquereau; G Corti; B Couturier; G A Cowan; D Craik; S Cunliffe; R Currie; C D'Ambrosio; P David; P N Y David; I De Bonis; K De Bruyn; S De Capua; M De Cian; J M De Miranda; L De Paula; W De Silva; P De Simone; D Decamp; M Deckenhoff; H Degaudenzi; L Del Buono; C Deplano; D Derkach; O Deschamps; F Dettori; A Di Canto; J Dickens; H Dijkstra; M Dogaru; F Domingo Bonal; S Donleavy; F Dordei; A Dosil Suárez; D Dossett; A Dovbnya; F Dupertuis; R Dzhelyadin; A Dziurda; A Dzyuba; S Easo; U Egede; V Egorychev; S Eidelman; D van Eijk; S Eisenhardt; U Eitschberger; R Ekelhof; L Eklund; I El Rifai; Ch Elsasser; D Elsby; A Falabella; C Färber; G Fardell; C Farinelli; S Farry; V Fave; D Ferguson; V Fernandez Albor; F Ferreira Rodrigues; M Ferro-Luzzi; S Filippov; C Fitzpatrick; M Fontana; F Fontanelli; R Forty; O Francisco; M Frank; C Frei; M Frosini; S Furcas; E Furfaro; A Gallas Torreira; D Galli; M Gandelman; P Gandini; Y Gao; J Garofoli; P Garosi; J Garra Tico; L Garrido; C Gaspar; R Gauld; E Gersabeck; M Gersabeck; T Gershon; Ph Ghez; V Gibson; V V Gligorov; C Göbel; D Golubkov; A Golutvin; A Gomes; H Gordon; M Grabalosa Gándara; R Graciani Diaz; L A Granado Cardoso; E Graugés; G Graziani; A Grecu; E Greening; S Gregson; O Grünberg; B Gui; E Gushchin; Yu Guz; T Gys; C Hadjivasiliou; G Haefeli; C Haen; S C Haines; S Hall; T Hampson; S Hansmann-Menzemer; N Harnew; S T Harnew; J Harrison; P F Harrison; T Hartmann; J He; V Heijne; K Hennessy; P Henrard; J A Hernando Morata; E van Herwijnen; E Hicks; D Hill; M Hoballah; C Hombach; P Hopchev; W Hulsbergen; P Hunt; T Huse; N Hussain; D Hutchcroft; D Hynds; V Iakovenko; P Ilten; R Jacobsson; A Jaeger; E Jans; F Jansen; P Jaton; F Jing; M John; D Johnson; C R Jones; B Jost; M Kaballo; S Kandybei; M Karacson; T M Karbach; I R Kenyon; U Kerzel; T Ketel; A Keune; B Khanji; O Kochebina; I Komarov; R F Koopman; P Koppenburg; M Korolev; A Kozlinskiy; L Kravchuk; K Kreplin; M Kreps; G Krocker; P Krokovny; F Kruse; M Kucharczyk; V Kudryavtsev; T Kvaratskheliya; V N La Thi; D Lacarrere; G Lafferty; A Lai; D Lambert; R W Lambert; E Lanciotti; G Lanfranchi; C Langenbruch; T Latham; C Lazzeroni; R Le Gac; J van Leerdam; J-P Lees; R Lefèvre; A Leflat; J Lefrançois; O Leroy; Y Li; L Li Gioi; M Liles; R Lindner; C Linn; B Liu; G Liu; J von Loeben; J H Lopes; E Lopez Asamar; N Lopez-March; H Lu; J Luisier; H Luo; F Machefert; I V Machikhiliyan; F Maciuc; O Maev; S Malde; G Manca; G Mancinelli; N Mangiafave; U Marconi; R Märki; J Marks; G Martellotti; A Martens; L Martin; A Martín Sánchez; M Martinelli; D Martinez Santos; D Martins Tostes; A Massafferri; R Matev; Z Mathe; C Matteuzzi; M Matveev; E Maurice; A Mazurov; J McCarthy; R McNulty; B Meadows; F Meier; M Meissner; M Merk; D A Milanes; M-N Minard; J Molina Rodriguez; S Monteil; D Moran; P Morawski; R Mountain; I Mous; F Muheim; K Müller; R Muresan; B Muryn; B Muster; P Naik; T Nakada; R Nandakumar; I Nasteva; M Needham; N Neufeld; A D Nguyen; T D Nguyen; C Nguyen-Mau; M Nicol; V Niess; R Niet; N Nikitin; T Nikodem; S Nisar; A Nomerotski; A Novoselov; A Oblakowska-Mucha; V Obraztsov; S Oggero; S Ogilvy; O Okhrimenko; R Oldeman; M Orlandea; J M Otalora Goicochea; P Owen; B K Pal; A Palano; M Palutan; J Panman; A Papanestis; M Pappagallo; C Parkes; C J Parkinson; G Passaleva; G D Patel; M Patel; G N Patrick; C Patrignani; C Pavel-Nicorescu; A Pazos Alvarez; A Pellegrino; G Penso; M Pepe Altarelli; S Perazzini; D L Perego; E Perez Trigo; A Pérez-Calero Yzquierdo; P Perret; M Perrin-Terrin; G Pessina; K Petridis; A Petrolini; A Phan; E Picatoste Olloqui; B Pietrzyk; T Pilař; D Pinci; S Playfer; M Plo Casasus; F Polci; G Polok; A Poluektov; E Polycarpo; D Popov; B Popovici; C Potterat; A Powell; J Prisciandaro; V Pugatch; A Puig Navarro; W Qian; J H Rademacker; B Rakotomiaramanana; M S Rangel; I Raniuk; N Rauschmayr; G Raven; S Redford; M M Reid; A C Dos Reis; S Ricciardi; A Richards; K Rinnert; V Rives Molina; D A Roa Romero; P Robbe; E Rodrigues; P Rodriguez Perez; G J Rogers; S Roiser; V Romanovsky; A Romero Vidal; J Rouvinet; T Ruf; H Ruiz; G Sabatino; J J Saborido Silva; N Sagidova; P Sail; B Saitta; C Salzmann; B Sanmartin Sedes; M Sannino; R Santacesaria; C Santamarina Rios; E Santovetti; M Sapunov; A Sarti; C Satriano; A Satta; M Savrie; D Savrina; P Schaack; M Schiller; H Schindler; S Schleich; M Schlupp; M Schmelling; B Schmidt; O Schneider; A Schopper; M-H Schune; R Schwemmer; B Sciascia; A Sciubba; M Seco; A Semennikov; K Senderowska; I Sepp; N Serra; J Serrano; P Seyfert; M Shapkin; I Shapoval; P Shatalov; Y Shcheglov; T Shears; L Shekhtman; O Shevchenko; V Shevchenko; A Shires; R Silva Coutinho; T Skwarnicki; N A Smith; E Smith; M Smith; K Sobczak; M D Sokoloff; F J P Soler; F Soomro; D Souza; B Souza De Paula; B Spaan; A Sparkes; P Spradlin; F Stagni; S Stahl; O Steinkamp; S Stoica; S Stone; B Storaci; M Straticiuc; U Straumann; V K Subbiah; S Swientek; V Syropoulos; M Szczekowski; P Szczypka; T Szumlak; S T'Jampens; M Teklishyn; E Teodorescu; F Teubert; C Thomas; E Thomas; J van Tilburg; V Tisserand; M Tobin; S Tolk; D Tonelli; S Topp-Joergensen; N Torr; E Tournefier; S Tourneur; M T Tran; M Tresch; A Tsaregorodtsev; P Tsopelas; N Tuning; M Ubeda Garcia; A Ukleja; D Urner; U Uwer; V Vagnoni; G Valenti; R Vazquez Gomez; P Vazquez Regueiro; S Vecchi; J J Velthuis; M Veltri; G Veneziano; M Vesterinen; B Viaud; D Vieira; X Vilasis-Cardona; A Vollhardt; D Volyanskyy; D Voong; A Vorobyev; V Vorobyev; C Voß; H Voss; R Waldi; R Wallace; S Wandernoth; J Wang; D R Ward; N K Watson; A D Webber; D Websdale; M Whitehead; J Wicht; J Wiechczynski; D Wiedner; L Wiggers; G Wilkinson; M P Williams; M Williams; F F Wilson; J Wishahi; M Witek; S A Wotton; S Wright; S Wu; K Wyllie; Y Xie; F Xing; Z Xing; Z Yang; R Young; X Yuan; O Yushchenko; M Zangoli; M Zavertyaev; F Zhang; L Zhang; W C Zhang; Y Zhang; A Zhelezov; L Zhong; A Zvyagin
Journal:  Eur Phys J C Part Fields       Date:  2013-06-13       Impact factor: 4.590

5.  Performance of the LHCb RICH detector at the LHC.

Authors:  M Adinolfi; G Aglieri Rinella; E Albrecht; T Bellunato; S Benson; T Blake; C Blanks; S Brisbane; N H Brook; M Calvi; B Cameron; R Cardinale; L Carson; A Contu; M Coombes; C D'Ambrosio; S Easo; U Egede; S Eisenhardt; E Fanchini; C Fitzpatrick; F Fontanelli; R Forty; C Frei; P Gandini; R Gao; J Garra Tico; A Giachero; V Gibson; C Gotti; S Gregson; T Gys; S C Haines; T Hampson; N Harnew; D Hill; P Hunt; M John; C R Jones; D Johnson; N Kanaya; S Katvars; U Kerzel; Y M Kim; S Koblitz; M Kucharczyk; D Lambert; A Main; M Maino; S Malde; N Mangiafave; C Matteuzzi; G Mini'; A Mollen; J Morant; R Mountain; J V Morris; F Muheim; R Muresan; J Nardulli; P Owen; A Papanestis; M Patel; G N Patrick; D L Perego; G Pessina; A Petrolini; D Piedigrossi; R Plackett; S Playfer; A Powell; J H Rademacker; S Ricciardi; G J Rogers; P Sail; M Sannino; T Savidge; I Sepp; S Sigurdsson; F J P Soler; A Solomin; F Soomro; A Sparkes; P Spradlin; B Storaci; C Thomas; S Topp-Joergensen; N Torr; O Ullaland; K Vervink; D Voong; D Websdale; G Wilkinson; S A Wotton; K Wyllie; F Xing; R Young
Journal:  Eur Phys J C Part Fields       Date:  2013-05-15       Impact factor: 4.590

6.  J/ψ polarization at hadron colliders in nonrelativistic QCD.

Authors:  Kuang-Ta Chao; Yan-Qing Ma; Hua-Sheng Shao; Kai Wang; Yu-Jie Zhang
Journal:  Phys Rev Lett       Date:  2012-06-15       Impact factor: 9.161

7.  Measurements of the mass and width of the η(c) using the decay ψ(3686)→γη(c).

Authors:  M Ablikim; M N Achasov; D Alberto; D J Ambrose; F F An; Q An; Z H An; J Z Bai; R B Ferroli; Y Ban; J Becker; N Berger; M B Bertani; J M Bian; E Boger; O Bondarenko; I Boyko; R A Briere; V Bytev; X Cai; A C Calcaterra; G F Cao; J F Chang; G Chelkov; G Chen; H S Chen; H X Chen; J C Chen; M L Chen; S J Chen; Y Chen; Y B Chen; H P Cheng; Y P Chu; D Cronin-Hennessy; H L Dai; J P Dai; D Dedovich; Z Y Deng; I Denysenko; M Destefanis; W L Ding; Y Ding; L Y Dong; M Y Dong; S X Du; J Fang; S S Fang; C Q Feng; C D Fu; J L Fu; Y Gao; C Geng; K Goetzen; W X Gong; M Greco; M H Gu; Y T Gu; Y H Guan; A Q Guo; L B Guo; Y P Guo; Y L Han; X Q Hao; F A Harris; K L He; M He; Z Y He; Y K Heng; Z L Hou; H M Hu; J F Hu; T Hu; B Huang; G M Huang; J S Huang; X T Huang; Y P Huang; T Hussain; C S Ji; Q Ji; X B Ji; X L Ji; L K Jia; L L Jiang; X S Jiang; J B Jiao; Z Jiao; D P Jin; S Jin; F F Jing; N Kalantar-Nayestanaki; M Kavatsyuk; W Kuehn; W Lai; J S Lange; J K C Leung; C H Li; Cheng Li; Cui Li; D M Li; F Li; G Li; H B Li; J C Li; K Li; Lei Li; N B Li; Q J Li; S L Li; W D Li; W G Li; X L Li; X N Li; X Q Li; X R Li; Z B Li; H Liang; Y F Liang; Y T Liang; G R Liao; X T Liao; B J Liu; C L Liu; C X Liu; C Y Liu; F H Liu; Fang Liu; Feng Liu; H Liu; H B Liu; H H Liu; H M Liu; H W Liu; J P Liu; K Liu; K Liu; K Y Liu; Q Liu; S B Liu; X Liu; X H Liu; Y B Liu; Yong Liu; Z A Liu; Zhiqiang Liu; Zhiqing Liu; H Loehner; G R Lu; H J Lu; J G Lu; Q W Lu; X R Lu; Y P Lu; C L Luo; M X Luo; T Luo; X L Luo; M Lv; C L Ma; F C Ma; H L Ma; Q M Ma; S Ma; T Ma; X Y Ma; M Maggiora; Q A Malik; H Mao; Y J Mao; Z P Mao; J G Messchendorp; J Min; T J Min; R E Mitchell; X H Mo; N Yu Muchnoi; Y Nefedov; I B Nikolaev; Z Ning; S L Olsen; Q Ouyang; S P Pacetti; J W Park; M Pelizaeus; K Peters; J L Ping; R G Ping; R Poling; C S J Pun; M Qi; S Qian; C F Qiao; X S Qin; J F Qiu; K H Rashid; G Rong; X D Ruan; A Sarantsev; J Schulze; M Shao; C P Shen; X Y Shen; H Y Sheng; M R Shepherd; X Y Song; S Spataro; B Spruck; D H Sun; G X Sun; J F Sun; S S Sun; X D Sun; Y J Sun; Y Z Sun; Z J Sun; Z T Sun; C J Tang; X Tang; E H Thorndike; H L Tian; D Toth; G S Varner; B Wang; B Q Wang; K Wang; L L Wang; L L Wang; L S Wang; M Wang; P Wang; P L Wang; Q Wang; Q J Wang; S G Wang; X F Wang; X L Wang; Y D Wang; Y F Wang; Y Q Wang; Z Wang; Z G Wang; Z Y Wang; D H Wei; Q G Wen; S P Wen; U Wiedner; L H Wu; N Wu; W Wu; Z Wu; Z J Xiao; Y G Xie; Q L Xiu; G F Xu; G M Xu; H Xu; Q J Xu; X P Xu; Y Xu; Z R Xu; Z Xue; L Yan; W B Yan; Y H Yan; H X Yang; T Yang; Y Yang; Y X Yang; H Ye; M Ye; M H Ye; B X Yu; C X Yu; S P Yu; C Z Yuan; W L Yuan; Y Yuan; A A Zafar; A Z Zallo; Y Zeng; B X Zhang; B Y Zhang; C C Zhang; D H Zhang; H H Zhang; H Y Zhang; J Zhang; J Q Zhang; J W Zhang; J Y Zhang; J Z Zhang; L Zhang; S H Zhang; T R Zhang; X J Zhang; X Y Zhang; Y Zhang; Y H Zhang; Y S Zhang; Z P Zhang; Z Y Zhang; G Zhao; H S Zhao; Jingwei Zhao; Lei Zhao; Ling Zhao; M G Zhao; Q Zhao; S J Zhao; T C Zhao; X H Zhao; Y B Zhao; Z G Zhao; A Zhemchugov; B Zheng; J P Zheng; Y H Zheng; Z P Zheng; B Zhong; J Zhong; L Zhou; X K Zhou; X R Zhou; C Zhu; K Zhu; K J Zhu; S H Zhu; X L Zhu; X W Zhu; Y S Zhu; Z A Zhu; J Zhuang; B S Zou; J H Zou; J X Zuo
Journal:  Phys Rev Lett       Date:  2012-05-31       Impact factor: 9.161

8.  Measurement of the Λ(b)(0), Ξ (b)(-), and Ω(b((-) Baryon masses.

Authors:  R Aaij; C Abellan Beteta; A Adametz; B Adeva; M Adinolfi; C Adrover; A Affolder; Z Ajaltouni; J Albrecht; F Alessio; M Alexander; S Ali; G Alkhazov; P Alvarez Cartelle; A A Alves; S Amato; Y Amhis; L Anderlini; J Anderson; R Andreassen; R B Appleby; O Aquines Gutierrez; F Archilli; A Artamonov; M Artuso; E Aslanides; G Auriemma; S Bachmann; J J Back; C Baesso; V Balagura; W Baldini; R J Barlow; C Barschel; S Barsuk; W Barter; Th Bauer; A Bay; J Beddow; I Bediaga; S Belogurov; K Belous; I Belyaev; E Ben-Haim; M Benayoun; G Bencivenni; S Benson; J Benton; A Berezhnoy; R Bernet; M-O Bettler; M van Beuzekom; A Bien; S Bifani; T Bird; A Bizzeti; P M Bjørnstad; T Blake; F Blanc; C Blanks; J Blouw; S Blusk; A Bobrov; V Bocci; A Bondar; N Bondar; W Bonivento; S Borghi; A Borgia; T J V Bowcock; E Bowen; C Bozzi; T Brambach; J van den Brand; J Bressieux; D Brett; M Britsch; T Britton; N H Brook; H Brown; I Burducea; A Bursche; J Buytaert; S Cadeddu; O Callot; M Calvi; M Calvo Gomez; A Camboni; P Campana; A Carbone; G Carboni; R Cardinale; A Cardini; H Carranza-Mejia; L Carson; K Carvalho Akiba; G Casse; M Cattaneo; Ch Cauet; M Charles; Ph Charpentier; P Chen; N Chiapolini; M Chrzaszcz; K Ciba; X Cid Vidal; G Ciezarek; P E L Clarke; M Clemencic; H V Cliff; J Closier; C Coca; V Coco; J Cogan; E Cogneras; P Collins; A Comerma-Montells; A Contu; A Cook; M Coombes; S Coquereau; G Corti; B Couturier; G A Cowan; D Craik; S Cunliffe; R Currie; C D'Ambrosio; P David; P N Y David; I De Bonis; K De Bruyn; S De Capua; M De Cian; J M De Miranda; L De Paula; W De Silva; P De Simone; D Decamp; M Deckenhoff; H Degaudenzi; L Del Buono; C Deplano; D Derkach; O Deschamps; F Dettori; A Di Canto; J Dickens; H Dijkstra; M Dogaru; F Domingo Bonal; S Donleavy; F Dordei; A Dosil Suárez; D Dossett; A Dovbnya; F Dupertuis; R Dzhelyadin; A Dziurda; A Dzyuba; S Easo; U Egede; V Egorychev; S Eidelman; D van Eijk; S Eisenhardt; U Eitschberger; R Ekelhof; L Eklund; I El Rifai; Ch Elsasser; D Elsby; A Falabella; C Färber; G Fardell; C Farinelli; S Farry; V Fave; D Ferguson; V Fernandez Albor; F Ferreira Rodrigues; M Ferro-Luzzi; S Filippov; C Fitzpatrick; M Fontana; F Fontanelli; R Forty; O Francisco; M Frank; C Frei; M Frosini; S Furcas; E Furfaro; A Gallas Torreira; D Galli; M Gandelman; P Gandini; Y Gao; J Garofoli; P Garosi; J Garra Tico; L Garrido; C Gaspar; R Gauld; E Gersabeck; M Gersabeck; T Gershon; Ph Ghez; V Gibson; V V Gligorov; C Göbel; D Golubkov; A Golutvin; A Gomes; H Gordon; M Grabalosa Gándara; R Graciani Diaz; L A Granado Cardoso; E Graugés; G Graziani; A Grecu; E Greening; S Gregson; O Grünberg; B Gui; E Gushchin; Yu Guz; T Gys; C Hadjivasiliou; G Haefeli; C Haen; S C Haines; S Hall; T Hampson; S Hansmann-Menzemer; N Harnew; S T Harnew; J Harrison; P F Harrison; T Hartmann; J He; V Heijne; K Hennessy; P Henrard; J A Hernando Morata; E van Herwijnen; E Hicks; D Hill; M Hoballah; C Hombach; P Hopchev; W Hulsbergen; P Hunt; T Huse; N Hussain; D Hutchcroft; D Hynds; V Iakovenko; P Ilten; R Jacobsson; A Jaeger; E Jans; F Jansen; P Jaton; F Jing; M John; D Johnson; C R Jones; B Jost; M Kaballo; S Kandybei; M Karacson; T M Karbach; I R Kenyon; U Kerzel; T Ketel; A Keune; B Khanji; O Kochebina; I Komarov; R F Koopman; P Koppenburg; M Korolev; A Kozlinskiy; L Kravchuk; K Kreplin; M Kreps; G Krocker; P Krokovny; F Kruse; M Kucharczyk; V Kudryavtsev; T Kvaratskheliya; V N La Thi; D Lacarrere; G Lafferty; A Lai; D Lambert; R W Lambert; E Lanciotti; G Lanfranchi; C Langenbruch; T Latham; C Lazzeroni; R Le Gac; J van Leerdam; J-P Lees; R Lefèvre; A Leflat; J Lefrançois; O Leroy; Y Li; L Li Gioi; M Liles; R Lindner; C Linn; B Liu; G Liu; J von Loeben; J H Lopes; E Lopez Asamar; N Lopez-March; H Lu; J Luisier; H Luo; F Machefert; I V Machikhiliyan; F Maciuc; O Maev; S Malde; G Manca; G Mancinelli; N Mangiafave; U Marconi; R Märki; J Marks; G Martellotti; A Martens; L Martin; A Martín Sánchez; M Martinelli; D Martinez Santos; D Martins Tostes; A Massafferri; R Matev; Z Mathe; C Matteuzzi; M Matveev; E Maurice; A Mazurov; J McCarthy; R McNulty; B Meadows; F Meier; M Meissner; M Merk; D A Milanes; M-N Minard; J Molina Rodriguez; S Monteil; D Moran; P Morawski; R Mountain; I Mous; F Muheim; K Müller; R Muresan; B Muryn; B Muster; P Naik; T Nakada; R Nandakumar; I Nasteva; M Needham; N Neufeld; A D Nguyen; T D Nguyen; C Nguyen-Mau; M Nicol; V Niess; R Niet; N Nikitin; T Nikodem; S Nisar; A Nomerotski; A Novoselov; A Oblakowska-Mucha; V Obraztsov; S Oggero; S Ogilvy; O Okhrimenko; R Oldeman; M Orlandea; J M Otalora Goicochea; P Owen; B K Pal; A Palano; M Palutan; J Panman; A Papanestis; M Pappagallo; C Parkes; C J Parkinson; G Passaleva; G D Patel; M Patel; G N Patrick; C Patrignani; C Pavel-Nicorescu; A Pazos Alvarez; A Pellegrino; G Penso; M Pepe Altarelli; S Perazzini; D L Perego; E Perez Trigo; A Pérez-Calero Yzquierdo; P Perret; M Perrin-Terrin; G Pessina; K Petridis; A Petrolini; A Phan; E Picatoste Olloqui; B Pietrzyk; T Pilař; D Pinci; S Playfer; M Plo Casasus; F Polci; G Polok; A Poluektov; E Polycarpo; D Popov; B Popovici; C Potterat; A Powell; J Prisciandaro; V Pugatch; A Puig Navarro; W Qian; J H Rademacker; B Rakotomiaramanana; M S Rangel; I Raniuk; N Rauschmayr; G Raven; S Redford; M M Reid; A C Dos Reis; S Ricciardi; A Richards; K Rinnert; V Rives Molina; D A Roa Romero; P Robbe; E Rodrigues; P Rodriguez Perez; G J Rogers; S Roiser; V Romanovsky; A Romero Vidal; J Rouvinet; T Ruf; H Ruiz; G Sabatino; J J Saborido Silva; N Sagidova; P Sail; B Saitta; C Salzmann; B Sanmartin Sedes; M Sannino; R Santacesaria; C Santamarina Rios; E Santovetti; M Sapunov; A Sarti; C Satriano; A Satta; M Savrie; D Savrina; P Schaack; M Schiller; H Schindler; S Schleich; M Schlupp; M Schmelling; B Schmidt; O Schneider; A Schopper; M-H Schune; R Schwemmer; B Sciascia; A Sciubba; M Seco; A Semennikov; K Senderowska; I Sepp; N Serra; J Serrano; P Seyfert; M Shapkin; I Shapoval; P Shatalov; Y Shcheglov; T Shears; L Shekhtman; O Shevchenko; V Shevchenko; A Shires; R Silva Coutinho; T Skwarnicki; N A Smith; E Smith; M Smith; K Sobczak; M D Sokoloff; F J P Soler; F Soomro; D Souza; B Souza De Paula; B Spaan; A Sparkes; P Spradlin; F Stagni; S Stahl; O Steinkamp; S Stoica; S Stone; B Storaci; M Straticiuc; U Straumann; V K Subbiah; S Swientek; V Syropoulos; M Szczekowski; P Szczypka; T Szumlak; S T'jampens; M Teklishyn; E Teodorescu; F Teubert; C Thomas; E Thomas; J van Tilburg; V Tisserand; M Tobin; S Tolk; D Tonelli; S Topp-Joergensen; N Torr; E Tournefier; S Tourneur; M T Tran; M Tresch; A Tsaregorodtsev; P Tsopelas; N Tuning; M Ubeda Garcia; A Ukleja; D Urner; U Uwer; V Vagnoni; G Valenti; R Vazquez Gomez; P Vazquez Regueiro; S Vecchi; J J Velthuis; M Veltri; G Veneziano; M Vesterinen; B Viaud; D Vieira; X Vilasis-Cardona; A Vollhardt; D Volyanskyy; D Voong; A Vorobyev; V Vorobyev; C Voß; H Voss; R Waldi; R Wallace; S Wandernoth; J Wang; D R Ward; N K Watson; A D Webber; D Websdale; M Whitehead; J Wicht; J Wiechczynski; D Wiedner; L Wiggers; G Wilkinson; M P Williams; M Williams; F F Wilson; J Wishahi; M Witek; S A Wotton; S Wright; S Wu; K Wyllie; Y Xie; F Xing; Z Xing; Z Yang; R Young; X Yuan; O Yushchenko; M Zangoli; M Zavertyaev; F Zhang; L Zhang; W C Zhang; Y Zhang; A Zhelezov; L Zhong; A Zvyagin
Journal:  Phys Rev Lett       Date:  2013-05-02       Impact factor: 9.161

9.  Measurement of ψ(2S) meson production in pp collisions at [Formula: see text].

Authors:  R Aaij; C Abellan Beteta; B Adeva; M Adinolfi; C Adrover; A Affolder; Z Ajaltouni; J Albrecht; F Alessio; M Alexander; G Alkhazov; P Alvarez Cartelle; A A Alves; S Amato; Y Amhis; J Anderson; R B Appleby; O Aquines Gutierrez; F Archilli; L Arrabito; A Artamonov; M Artuso; E Aslanides; G Auriemma; S Bachmann; J J Back; D S Bailey; V Balagura; W Baldini; R J Barlow; C Barschel; S Barsuk; W Barter; A Bates; C Bauer; Th Bauer; A Bay; I Bediaga; S Belogurov; K Belous; I Belyaev; E Ben-Haim; M Benayoun; G Bencivenni; S Benson; J Benton; R Bernet; M-O Bettler; M van Beuzekom; A Bien; S Bifani; T Bird; A Bizzeti; P M Bjørnstad; T Blake; F Blanc; C Blanks; J Blouw; S Blusk; A Bobrov; V Bocci; A Bondar; N Bondar; W Bonivento; S Borghi; A Borgia; T J V Bowcock; C Bozzi; T Brambach; J van den Brand; J Bressieux; D Brett; M Britsch; T Britton; N H Brook; H Brown; K de Bruyn; A Büchler-Germann; I Burducea; A Bursche; J Buytaert; S Cadeddu; O Callot; M Calvi; M Calvo Gomez; A Camboni; P Campana; A Carbone; G Carboni; R Cardinale; A Cardini; L Carson; K Carvalho Akiba; G Casse; M Cattaneo; Ch Cauet; M Charles; Ph Charpentier; N Chiapolini; K Ciba; X Cid Vidal; G Ciezarek; P E L Clarke; M Clemencic; H V Cliff; J Closier; C Coca; V Coco; J Cogan; P Collins; A Comerma-Montells; F Constantin; A Contu; A Cook; M Coombes; G Corti; B Couturier; G A Cowan; R Currie; C D'Ambrosio; P David; P N Y David; I De Bonis; S De Capua; M De Cian; F De Lorenzi; J M De Miranda; L De Paula; P De Simone; D Decamp; M Deckenhoff; H Degaudenzi; L Del Buono; C Deplano; D Derkach; O Deschamps; F Dettori; J Dickens; H Dijkstra; P Diniz Batista; F Domingo Bonal; S Donleavy; F Dordei; A Dosil Suárez; D Dossett; A Dovbnya; F Dupertuis; R Dzhelyadin; A Dziurda; S Easo; U Egede; V Egorychev; S Eidelman; D van Eijk; F Eisele; S Eisenhardt; R Ekelhof; L Eklund; Ch Elsasser; D Elsby; D Esperante Pereira; A Falabella; E Fanchini; C Färber; G Fardell; C Farinelli; S Farry; V Fave; V Fernandez Albor; M Ferro-Luzzi; S Filippov; C Fitzpatrick; M Fontana; F Fontanelli; R Forty; O Francisco; M Frank; C Frei; M Frosini; S Furcas; A Gallas Torreira; D Galli; M Gandelman; P Gandini; Y Gao; J-C Garnier; J Garofoli; J Garra Tico; L Garrido; D Gascon; C Gaspar; R Gauld; N Gauvin; M Gersabeck; T Gershon; Ph Ghez; V Gibson; V V Gligorov; C Göbel; D Golubkov; A Golutvin; A Gomes; H Gordon; M Grabalosa Gándara; R Graciani Diaz; L A Granado Cardoso; E Graugés; G Graziani; A Grecu; E Greening; S Gregson; B Gui; E Gushchin; Yu Guz; T Gys; C Hadjivasiliou; G Haefeli; C Haen; S C Haines; T Hampson; S Hansmann-Menzemer; R Harji; N Harnew; J Harrison; P F Harrison; T Hartmann; J He; V Heijne; K Hennessy; P Henrard; J A Hernando Morata; E van Herwijnen; E Hicks; K Holubyev; P Hopchev; W Hulsbergen; P Hunt; T Huse; R S Huston; D Hutchcroft; D Hynds; V Iakovenko; P Ilten; J Imong; R Jacobsson; A Jaeger; M Jahjah Hussein; E Jans; F Jansen; P Jaton; B Jean-Marie; F Jing; M John; D Johnson; C R Jones; B Jost; M Kaballo; S Kandybei; M Karacson; T M Karbach; J Keaveney; I R Kenyon; U Kerzel; T Ketel; A Keune; B Khanji; Y M Kim; M Knecht; R F Koopman; P Koppenburg; M Korolev; A Kozlinskiy; L Kravchuk; K Kreplin; M Kreps; G Krocker; P Krokovny; F Kruse; K Kruzelecki; M Kucharczyk; T Kvaratskheliya; V N La Thi; D Lacarrere; G Lafferty; A Lai; D Lambert; R W Lambert; E Lanciotti; G Lanfranchi; C Langenbruch; T Latham; C Lazzeroni; R Le Gac; J van Leerdam; J-P Lees; R Lefèvre; A Leflat; J Lefrançois; O Leroy; T Lesiak; L Li; L Li Gioi; M Lieng; M Liles; R Lindner; C Linn; B Liu; G Liu; J von Loeben; J H Lopes; E Lopez Asamar; N Lopez-March; H Lu; J Luisier; A Mac Raighne; F Machefert; I V Machikhiliyan; F Maciuc; O Maev; J Magnin; S Malde; R M D Mamunur; G Manca; G Mancinelli; N Mangiafave; U Marconi; R Märki; J Marks; G Martellotti; A Martens; L Martin; A Martín Sánchez; D Martinez Santos; A Massafferri; Z Mathe; C Matteuzzi; M Matveev; E Maurice; B Maynard; A Mazurov; G McGregor; R McNulty; M Meissner; M Merk; J Merkel; R Messi; S Miglioranzi; D A Milanes; M-N Minard; J Molina Rodriguez; S Monteil; D Moran; P Morawski; R Mountain; I Mous; F Muheim; K Müller; R Muresan; B Muryn; B Muster; M Musy; J Mylroie-Smith; P Naik; T Nakada; R Nandakumar; I Nasteva; M Nedos; M Needham; N Neufeld; A D Nguyen; C Nguyen-Mau; M Nicol; V Niess; N Nikitin; A Nomerotski; A Novoselov; A Oblakowska-Mucha; V Obraztsov; S Oggero; S Ogilvy; O Okhrimenko; R Oldeman; M Orlandea; J M Otalora Goicochea; P Owen; K Pal; J Palacios; A Palano; M Palutan; J Panman; A Papanestis; M Pappagallo; C Parkes; C J Parkinson; G Passaleva; G D Patel; M Patel; S K Paterson; G N Patrick; C Patrignani; C Pavel-Nicorescu; A Pazos Alvarez; A Pellegrino; G Penso; M Pepe Altarelli; S Perazzini; D L Perego; E Perez Trigo; A Pérez-Calero Yzquierdo; P Perret; M Perrin-Terrin; G Pessina; A Petrella; A Petrolini; A Phan; E Picatoste Olloqui; B Pie Valls; B Pietrzyk; T Pilař; D Pinci; R Plackett; S Playfer; M Plo Casasus; G Polok; A Poluektov; E Polycarpo; D Popov; B Popovici; C Potterat; A Powell; J Prisciandaro; V Pugatch; A Puig Navarro; W Qian; J H Rademacker; B Rakotomiaramanana; M S Rangel; I Raniuk; G Raven; S Redford; M M Reid; A C Dos Reis; S Ricciardi; A Richards; K Rinnert; D A Roa Romero; P Robbe; E Rodrigues; F Rodrigues; P Rodriguez Perez; G J Rogers; S Roiser; V Romanovsky; M Rosello; J Rouvinet; T Ruf; H Ruiz; G Sabatino; J J Saborido Silva; N Sagidova; P Sail; B Saitta; C Salzmann; M Sannino; R Santacesaria; C Santamarina Rios; R Santinelli; E Santovetti; M Sapunov; A Sarti; C Satriano; A Satta; M Savrie; D Savrina; P Schaack; M Schiller; S Schleich; M Schlupp; M Schmelling; B Schmidt; O Schneider; A Schopper; M-H Schune; R Schwemmer; B Sciascia; A Sciubba; M Seco; A Semennikov; K Senderowska; I Sepp; N Serra; J Serrano; P Seyfert; M Shapkin; I Shapoval; P Shatalov; Y Shcheglov; T Shears; L Shekhtman; O Shevchenko; V Shevchenko; A Shires; R Silva Coutinho; T Skwarnicki; N A Smith; E Smith; K Sobczak; F J P Soler; A Solomin; F Soomro; B Souza De Paula; B Spaan; A Sparkes; P Spradlin; F Stagni; S Stahl; O Steinkamp; S Stoica; S Stone; B Storaci; M Straticiuc; U Straumann; V K Subbiah; S Swientek; M Szczekowski; P Szczypka; T Szumlak; S T'Jampens; E Teodorescu; F Teubert; C Thomas; E Thomas; J van Tilburg; V Tisserand; M Tobin; S Topp-Joergensen; N Torr; E Tournefier; S Tourneur; M T Tran; A Tsaregorodtsev; N Tuning; M Ubeda Garcia; A Ukleja; P Urquijo; U Uwer; V Vagnoni; G Valenti; R Vazquez Gomez; P Vazquez Regueiro; S Vecchi; J J Velthuis; M Veltri; B Viaud; I Videau; D Vieira; X Vilasis-Cardona; J Visniakov; A Vollhardt; D Volyanskyy; D Voong; A Vorobyev; H Voss; S Wandernoth; J Wang; D R Ward; N K Watson; A D Webber; D Websdale; M Whitehead; D Wiedner; L Wiggers; G Wilkinson; M P Williams; M Williams; F F Wilson; J Wishahi; M Witek; W Witzeling; S A Wotton; K Wyllie; Y Xie; F Xing; Z Xing; Z Yang; R Young; O Yushchenko; M Zangoli; M Zavertyaev; F Zhang; L Zhang; W C Zhang; Y Zhang; A Zhelezov; L Zhong; A Zvyagin
Journal:  Eur Phys J C Part Fields       Date:  2012-08-10       Impact factor: 4.590

10.  Measurement of J/ψ polarization in pp collisions at [Formula: see text].

Authors:  R Aaij; C Abellan Beteta; B Adeva; M Adinolfi; C Adrover; A Affolder; Z Ajaltouni; J Albrecht; F Alessio; M Alexander; S Ali; G Alkhazov; P Alvarez Cartelle; A A Alves; S Amato; S Amerio; Y Amhis; L Anderlini; J Anderson; R Andreassen; R B Appleby; O Aquines Gutierrez; F Archilli; A Artamonov; M Artuso; E Aslanides; G Auriemma; S Bachmann; J J Back; C Baesso; V Balagura; W Baldini; R J Barlow; C Barschel; S Barsuk; W Barter; Th Bauer; A Bay; J Beddow; F Bedeschi; I Bediaga; S Belogurov; K Belous; I Belyaev; E Ben-Haim; M Benayoun; G Bencivenni; S Benson; J Benton; A Berezhnoy; R Bernet; M-O Bettler; M van Beuzekom; A Bien; S Bifani; T Bird; A Bizzeti; P M Bjørnstad; T Blake; F Blanc; J Blouw; S Blusk; V Bocci; A Bondar; N Bondar; W Bonivento; S Borghi; A Borgia; T J V Bowcock; E Bowen; C Bozzi; T Brambach; J van den Brand; J Bressieux; D Brett; M Britsch; T Britton; N H Brook; H Brown; I Burducea; A Bursche; G Busetto; J Buytaert; S Cadeddu; O Callot; M Calvi; M Calvo Gomez; A Camboni; P Campana; D Campora Perez; A Carbone; G Carboni; R Cardinale; A Cardini; H Carranza-Mejia; L Carson; K Carvalho Akiba; G Casse; L Castillo Garcia; M Cattaneo; Ch Cauet; M Charles; Ph Charpentier; P Chen; N Chiapolini; M Chrzaszcz; K Ciba; X Cid Vidal; G Ciezarek; P E L Clarke; M Clemencic; H V Cliff; J Closier; C Coca; V Coco; J Cogan; E Cogneras; P Collins; A Comerma-Montells; A Contu; A Cook; M Coombes; S Coquereau; G Corti; B Couturier; G A Cowan; D C Craik; S Cunliffe; R Currie; C D'Ambrosio; P David; P N Y David; A Davis; I De Bonis; K De Bruyn; S De Capua; M De Cian; J M De Miranda; L De Paula; W De Silva; P De Simone; D Decamp; M Deckenhoff; L Del Buono; D Derkach; O Deschamps; F Dettori; A Di Canto; H Dijkstra; M Dogaru; S Donleavy; F Dordei; A Dosil Suárez; D Dossett; A Dovbnya; F Dupertuis; R Dzhelyadin; A Dziurda; A Dzyuba; S Easo; U Egede; V Egorychev; S Eidelman; D van Eijk; S Eisenhardt; U Eitschberger; R Ekelhof; L Eklund; I El Rifai; Ch Elsasser; D Elsby; A Falabella; C Färber; G Fardell; C Farinelli; S Farry; V Fave; D Ferguson; V Fernandez Albor; F Ferreira Rodrigues; M Ferro-Luzzi; S Filippov; M Fiore; C Fitzpatrick; M Fontana; F Fontanelli; R Forty; O Francisco; M Frank; C Frei; M Frosini; S Furcas; E Furfaro; A Gallas Torreira; D Galli; M Gandelman; P Gandini; Y Gao; J Garofoli; P Garosi; J Garra Tico; L Garrido; C Gaspar; R Gauld; E Gersabeck; M Gersabeck; T Gershon; Ph Ghez; V Gibson; V V Gligorov; C Göbel; D Golubkov; A Golutvin; A Gomes; H Gordon; C Gotti; M Grabalosa Gándara; R Graciani Diaz; L A Granado Cardoso; E Graugés; G Graziani; A Grecu; E Greening; S Gregson; O Grünberg; B Gui; E Gushchin; Yu Guz; T Gys; C Hadjivasiliou; G Haefeli; C Haen; S C Haines; S Hall; T Hampson; S Hansmann-Menzemer; N Harnew; S T Harnew; J Harrison; T Hartmann; J He; V Heijne; K Hennessy; P Henrard; J A Hernando Morata; E van Herwijnen; A Hicheur; E Hicks; D Hill; M Hoballah; C Hombach; P Hopchev; W Hulsbergen; P Hunt; T Huse; N Hussain; D Hutchcroft; D Hynds; V Iakovenko; M Idzik; P Ilten; R Jacobsson; A Jaeger; E Jans; P Jaton; F Jing; M John; D Johnson; C R Jones; C Joram; B Jost; M Kaballo; S Kandybei; M Karacson; T M Karbach; I R Kenyon; U Kerzel; T Ketel; A Keune; B Khanji; O Kochebina; I Komarov; R F Koopman; P Koppenburg; M Korolev; A Kozlinskiy; L Kravchuk; K Kreplin; M Kreps; G Krocker; P Krokovny; F Kruse; M Kucharczyk; V Kudryavtsev; T Kvaratskheliya; V N La Thi; D Lacarrere; G Lafferty; A Lai; D Lambert; R W Lambert; E Lanciotti; G Lanfranchi; C Langenbruch; T Latham; C Lazzeroni; R Le Gac; J van Leerdam; J-P Lees; R Lefèvre; A Leflat; J Lefrançois; S Leo; O Leroy; T Lesiak; B Leverington; Y Li; L Li Gioi; M Liles; R Lindner; C Linn; B Liu; G Liu; S Lohn; I Longstaff; J H Lopes; E Lopez Asamar; N Lopez-March; H Lu; D Lucchesi; J Luisier; H Luo; F Machefert; I V Machikhiliyan; F Maciuc; O Maev; S Malde; G Manca; G Mancinelli; U Marconi; R Märki; J Marks; G Martellotti; A Martens; A Martín Sánchez; M Martinelli; D Martinez Santos; D Martins Tostes; A Martynov; A Massafferri; R Matev; Z Mathe; C Matteuzzi; E Maurice; A Mazurov; J McCarthy; A McNab; R McNulty; B Meadows; F Meier; M Meissner; M Merk; D A Milanes; M-N Minard; J Molina Rodriguez; S Monteil; D Moran; P Morawski; M J Morello; R Mountain; I Mous; F Muheim; K Müller; R Muresan; B Muryn; B Muster; P Naik; T Nakada; R Nandakumar; I Nasteva; M Needham; N Neufeld; A D Nguyen; T D Nguyen; C Nguyen-Mau; M Nicol; V Niess; R Niet; N Nikitin; T Nikodem; A Nomerotski; A Novoselov; A Oblakowska-Mucha; V Obraztsov; S Oggero; S Ogilvy; O Okhrimenko; R Oldeman; M Orlandea; J M Otalora Goicochea; P Owen; A Oyanguren; B K Pal; A Palano; M Palutan; J Panman; A Papanestis; M Pappagallo; C Parkes; C J Parkinson; G Passaleva; G D Patel; M Patel; G N Patrick; C Patrignani; C Pavel-Nicorescu; A Pazos Alvarez; A Pellegrino; G Penso; M Pepe Altarelli; S Perazzini; D L Perego; E Perez Trigo; A Pérez-Calero Yzquierdo; P Perret; M Perrin-Terrin; K Petridis; A Petrolini; A Phan; E Picatoste Olloqui; B Pietrzyk; T Pilař; D Pinci; S Playfer; M Plo Casasus; F Polci; G Polok; A Poluektov; E Polycarpo; D Popov; B Popovici; C Potterat; A Powell; J Prisciandaro; A Pritchard; C Prouve; V Pugatch; A Puig Navarro; G Punzi; W Qian; J H Rademacker; B Rakotomiaramanana; M S Rangel; I Raniuk; N Rauschmayr; G Raven; S Redford; M M Reid; A C Dos Reis; S Ricciardi; A Richards; K Rinnert; V Rives Molina; D A Roa Romero; P Robbe; E Rodrigues; P Rodriguez Perez; S Roiser; V Romanovsky; A Romero Vidal; J Rouvinet; T Ruf; F Ruffini; H Ruiz; P Ruiz Valls; G Sabatino; J J Saborido Silva; N Sagidova; P Sail; B Saitta; C Salzmann; B Sanmartin Sedes; M Sannino; R Santacesaria; C Santamarina Rios; E Santovetti; M Sapunov; A Sarti; C Satriano; A Satta; M Savrie; D Savrina; P Schaack; M Schiller; H Schindler; M Schlupp; M Schmelling; B Schmidt; O Schneider; A Schopper; M-H Schune; R Schwemmer; B Sciascia; A Sciubba; M Seco; A Semennikov; K Senderowska; I Sepp; N Serra; J Serrano; P Seyfert; M Shapkin; I Shapoval; P Shatalov; Y Shcheglov; T Shears; L Shekhtman; O Shevchenko; V Shevchenko; A Shires; R Silva Coutinho; T Skwarnicki; N A Smith; E Smith; M Smith; M D Sokoloff; F J P Soler; F Soomro; D Souza; B Souza De Paula; B Spaan; A Sparkes; P Spradlin; F Stagni; S Stahl; O Steinkamp; S Stoica; S Stone; B Storaci; M Straticiuc; U Straumann; V K Subbiah; S Swientek; V Syropoulos; M Szczekowski; P Szczypka; T Szumlak; S T'Jampens; M Teklishyn; E Teodorescu; F Teubert; C Thomas; E Thomas; J van Tilburg; V Tisserand; M Tobin; S Tolk; D Tonelli; S Topp-Joergensen; N Torr; E Tournefier; S Tourneur; M T Tran; M Tresch; A Tsaregorodtsev; P Tsopelas; N Tuning; M Ubeda Garcia; A Ukleja; D Urner; U Uwer; V Vagnoni; G Valenti; R Vazquez Gomez; P Vazquez Regueiro; S Vecchi; J J Velthuis; M Veltri; G Veneziano; M Vesterinen; B Viaud; D Vieira; X Vilasis-Cardona; A Vollhardt; D Volyanskyy; D Voong; A Vorobyev; V Vorobyev; C Voß; H Voss; R Waldi; R Wallace; S Wandernoth; J Wang; D R Ward; N K Watson; A D Webber; D Websdale; M Whitehead; J Wicht; J Wiechczynski; D Wiedner; L Wiggers; G Wilkinson; M P Williams; M Williams; F F Wilson; J Wishahi; M Witek; S A Wotton; S Wright; S Wu; K Wyllie; Y Xie; Z Xing; Z Yang; R Young; X Yuan; O Yushchenko; M Zangoli; M Zavertyaev; F Zhang; L Zhang; W C Zhang; Y Zhang; A Zhelezov; A Zhokhov; L Zhong; A Zvyagin
Journal:  Eur Phys J C Part Fields       Date:  2013-11-09       Impact factor: 4.590
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1.  Study of charmonium production in b -hadron decays and first evidence for the decay B s 0 ϕ ϕ ϕ.

Authors:  R Aaij; B Adeva; M Adinolfi; Z Ajaltouni; S Akar; J Albrecht; F Alessio; M Alexander; S Ali; G Alkhazov; P Alvarez Cartelle; A A Alves; S Amato; S Amerio; Y Amhis; L An; L Anderlini; G Andreassi; M Andreotti; J E Andrews; R B Appleby; F Archilli; P d'Argent; J Arnau Romeu; A Artamonov; M Artuso; E Aslanides; G Auriemma; M Baalouch; I Babuschkin; S Bachmann; J J Back; A Badalov; C Baesso; S Baker; V Balagura; W Baldini; A Baranov; R J Barlow; C Barschel; S Barsuk; W Barter; F Baryshnikov; M Baszczyk; V Batozskaya; V Battista; A Bay; L Beaucourt; J Beddow; F Bedeschi; I Bediaga; A Beiter; L J Bel; V Bellee; N Belloli; K Belous; I Belyaev; E Ben-Haim; G Bencivenni; S Benson; S Beranek; A Berezhnoy; R Bernet; A Bertolin; C Betancourt; F Betti; M-O Bettler; M van Beuzekom; Ia Bezshyiko; S Bifani; P Billoir; A Birnkraut; A Bitadze; A Bizzeti; T Blake; F Blanc; J Blouw; S Blusk; V Bocci; T Boettcher; A Bondar; N Bondar; W Bonivento; I Bordyuzhin; A Borgheresi; S Borghi; M Borisyak; M Borsato; F Bossu; M Boubdir; T J V Bowcock; E Bowen; C Bozzi; S Braun; T Britton; J Brodzicka; E Buchanan; C Burr; A Bursche; J Buytaert; S Cadeddu; R Calabrese; M Calvi; M Calvo Gomez; A Camboni; P Campana; D H Campora Perez; L Capriotti; A Carbone; G Carboni; R Cardinale; A Cardini; P Carniti; L Carson; K Carvalho Akiba; G Casse; L Cassina; L Castillo Garcia; M Cattaneo; G Cavallero; R Cenci; D Chamont; M Charles; Ph Charpentier; G Chatzikonstantinidis; M Chefdeville; S Chen; S F Cheung; V Chobanova; M Chrzaszcz; A Chubykin; X Cid Vidal; G Ciezarek; P E L Clarke; M Clemencic; H V Cliff; J Closier; V Coco; J Cogan; E Cogneras; V Cogoni; L Cojocariu; P Collins; A Comerma-Montells; A Contu; A Cook; G Coombs; S Coquereau; G Corti; M Corvo; C M Costa Sobral; B Couturier; G A Cowan; D C Craik; A Crocombe; M Cruz Torres; R Currie; C D'Ambrosio; F Da Cunha Marinho; E Dall'Occo; J Dalseno; A Davis; K De Bruyn; S De Capua; M De Cian; J M De Miranda; L De Paula; M De Serio; P De Simone; C T Dean; D Decamp; M Deckenhoff; L Del Buono; H-P Dembinski; M Demmer; A Dendek; D Derkach; O Deschamps; F Dettori; B Dey; A Di Canto; P Di Nezza; H Dijkstra; F Dordei; M Dorigo; A Dosil Suárez; A Dovbnya; K Dreimanis; L Dufour; G Dujany; K Dungs; P Durante; R Dzhelyadin; M Dziewiecki; A Dziurda; A Dzyuba; N Déléage; S Easo; M Ebert; U Egede; V Egorychev; S Eidelman; S Eisenhardt; U Eitschberger; R Ekelhof; L Eklund; S Ely; S Esen; H M Evans; T Evans; A Falabella; N Farley; S Farry; R Fay; D Fazzini; D Ferguson; G Fernandez; A Fernandez Prieto; F Ferrari; F Ferreira Rodrigues; M Ferro-Luzzi; S Filippov; R A Fini; M Fiore; M Fiorini; M Firlej; C Fitzpatrick; T Fiutowski; F Fleuret; K Fohl; M Fontana; F Fontanelli; D C Forshaw; R Forty; V Franco Lima; M Frank; C Frei; J Fu; W Funk; E Furfaro; C Färber; A Gallas Torreira; D Galli; S Gallorini; S Gambetta; M Gandelman; P Gandini; Y Gao; L M Garcia Martin; J García Pardiñas; J Garra Tico; L Garrido; P J Garsed; D Gascon; C Gaspar; L Gavardi; G Gazzoni; D Gerick; E Gersabeck; M Gersabeck; T Gershon; Ph Ghez; S Gianì; V Gibson; O G Girard; L Giubega; K Gizdov; V V Gligorov; D Golubkov; A Golutvin; A Gomes; I V Gorelov; C Gotti; E Govorkova; R Graciani Diaz; L A Granado Cardoso; E Graugés; E Graverini; G Graziani; A Grecu; R Greim; P Griffith; L Grillo; B R Gruberg Cazon; O Grünberg; E Gushchin; Yu Guz; T Gys; C Göbel; T Hadavizadeh; C Hadjivasiliou; G Haefeli; C Haen; S C Haines; B Hamilton; X Han; S Hansmann-Menzemer; N Harnew; S T Harnew; J Harrison; M Hatch; J He; T Head; A Heister; K Hennessy; P Henrard; L Henry; E van Herwijnen; M Heß; A Hicheur; D Hill; C Hombach; P H Hopchev; Z-C Huard; W Hulsbergen; T Humair; M Hushchyn; D Hutchcroft; M Idzik; P Ilten; R Jacobsson; J Jalocha; E Jans; A Jawahery; F Jiang; M John; D Johnson; C R Jones; C Joram; B Jost; N Jurik; S Kandybei; M Karacson; J M Kariuki; S Karodia; M Kecke; M Kelsey; M Kenzie; T Ketel; E Khairullin; B Khanji; C Khurewathanakul; T Kirn; S Klaver; K Klimaszewski; T Klimkovich; S Koliiev; M Kolpin; I Komarov; R Kopecna; P Koppenburg; A Kosmyntseva; S Kotriakhova; M Kozeiha; L Kravchuk; M Kreps; P Krokovny; F Kruse; W Krzemien; W Kucewicz; M Kucharczyk; V Kudryavtsev; A K Kuonen; K Kurek; T Kvaratskheliya; D Lacarrere; G Lafferty; A Lai; G Lanfranchi; C Langenbruch; T Latham; C Lazzeroni; R Le Gac; J van Leerdam; A Leflat; J Lefrançois; R Lefèvre; F Lemaitre; E Lemos Cid; O Leroy; T Lesiak; B Leverington; T Li; Y Li; Z Li; T Likhomanenko; R Lindner; F Lionetto; X Liu; D Loh; I Longstaff; J H Lopes; D Lucchesi; M Lucio Martinez; H Luo; A Lupato; E Luppi; O Lupton; A Lusiani; X Lyu; F Machefert; F Maciuc; O Maev; K Maguire; S Malde; A Malinin; T Maltsev; G Manca; G Mancinelli; P Manning; J Maratas; J F Marchand; U Marconi; C Marin Benito; M Marinangeli; P Marino; J Marks; G Martellotti; M Martin; M Martinelli; D Martinez Santos; F Martinez Vidal; D Martins Tostes; L M Massacrier; A Massafferri; R Matev; A Mathad; Z Mathe; C Matteuzzi; A Mauri; E Maurice; B Maurin; A Mazurov; M McCann; A McNab; R McNulty; B Meadows; F Meier; D Melnychuk; M Merk; A Merli; E Michielin; D A Milanes; M-N Minard; D S Mitzel; A Mogini; J Molina Rodriguez; I A Monroy; S Monteil; M Morandin; M J Morello; O Morgunova; J Moron; A B Morris; R Mountain; F Muheim; M Mulder; M Mussini; D Müller; J Müller; K Müller; V Müller; P Naik; T Nakada; R Nandakumar; A Nandi; I Nasteva; M Needham; N Neri; S Neubert; N Neufeld; M Neuner; T D Nguyen; C Nguyen-Mau; S Nieswand; R Niet; N Nikitin; T Nikodem; A Nogay; A Novoselov; D P O'Hanlon; A Oblakowska-Mucha; V Obraztsov; S Ogilvy; R Oldeman; C J G Onderwater; A Ossowska; J M Otalora Goicochea; P Owen; A Oyanguren; P R Pais; A Palano; M Palutan; A Papanestis; M Pappagallo; L L Pappalardo; C Pappenheimer; W Parker; C Parkes; G Passaleva; A Pastore; M Patel; C Patrignani; A Pearce; A Pellegrino; G Penso; M Pepe Altarelli; S Perazzini; P Perret; L Pescatore; K Petridis; A Petrolini; A Petrov; M Petruzzo; E Picatoste Olloqui; B Pietrzyk; M Pikies; D Pinci; A Pistone; A Piucci; V Placinta; S Playfer; M Plo Casasus; T Poikela; F Polci; M Poli Lener; A Poluektov; I Polyakov; E Polycarpo; G J Pomery; S Ponce; A Popov; D Popov; B Popovici; S Poslavskii; C Potterat; E Price; J Prisciandaro; C Prouve; V Pugatch; A Puig Navarro; G Punzi; W Qian; R Quagliani; B Rachwal; J H Rademacker; M Rama; M Ramos Pernas; M S Rangel; I Raniuk; F Ratnikov; G Raven; F Redi; S Reichert; A C Dos Reis; C Remon Alepuz; V Renaudin; S Ricciardi; S Richards; M Rihl; K Rinnert; V Rives Molina; P Robbe; A B Rodrigues; E Rodrigues; J A Rodriguez Lopez; P Rodriguez Perez; A Rogozhnikov; S Roiser; A Rollings; V Romanovskiy; A Romero Vidal; J W Ronayne; M Rotondo; M S Rudolph; T Ruf; P Ruiz Valls; J J Saborido Silva; E Sadykhov; N Sagidova; B Saitta; V Salustino Guimaraes; D Sanchez Gonzalo; C Sanchez Mayordomo; B Sanmartin Sedes; R Santacesaria; C Santamarina Rios; M Santimaria; E Santovetti; A Sarti; C Satriano; A Satta; D M Saunders; D Savrina; S Schael; M Schellenberg; M Schiller; H Schindler; M Schlupp; M Schmelling; T Schmelzer; B Schmidt; O Schneider; A Schopper; H F Schreiner; K Schubert; M Schubiger; M-H Schune; R Schwemmer; B Sciascia; A Sciubba; A Semennikov; A Sergi; N Serra; J Serrano; L Sestini; P Seyfert; M Shapkin; I Shapoval; Y Shcheglov; T Shears; L Shekhtman; V Shevchenko; B G Siddi; R Silva Coutinho; L Silva de Oliveira; G Simi; S Simone; M Sirendi; N Skidmore; T Skwarnicki; E Smith; I T Smith; J Smith; M Smith; L Soares Lavra; M D Sokoloff; F J P Soler; B Souza De Paula; B Spaan; P Spradlin; S Sridharan; F Stagni; M Stahl; S Stahl; P Stefko; S Stefkova; O Steinkamp; S Stemmle; O Stenyakin; H Stevens; S Stoica; S Stone; B Storaci; S Stracka; M E Stramaglia; M Straticiuc; U Straumann; L Sun; W Sutcliffe; K Swientek; V Syropoulos; M Szczekowski; T Szumlak; S T'Jampens; A Tayduganov; T Tekampe; M Teklishyn; G Tellarini; F Teubert; E Thomas; J van Tilburg; M J Tilley; V Tisserand; M Tobin; S Tolk; L Tomassetti; D Tonelli; S Topp-Joergensen; F Toriello; R Tourinho Jadallah Aoude; E Tournefier; S Tourneur; K Trabelsi; M Traill; M T Tran; M Tresch; A Trisovic; A Tsaregorodtsev; P Tsopelas; A Tully; N Tuning; A Ukleja; A Usachov; A Ustyuzhanin; U Uwer; C Vacca; V Vagnoni; A Valassi; S Valat; G Valenti; R Vazquez Gomez; P Vazquez Regueiro; S Vecchi; M van Veghel; J J Velthuis; M Veltri; G Veneziano; A Venkateswaran; T A Verlage; M Vernet; M Vesterinen; J V Viana Barbosa; B Viaud; D Vieira; M Vieites Diaz; H Viemann; X Vilasis-Cardona; M Vitti; V Volkov; A Vollhardt; B Voneki; A Vorobyev; V Vorobyev; C Voß; J A de Vries; C Vázquez Sierra; R Waldi; C Wallace; R Wallace; J Walsh; J Wang; D R Ward; H M Wark; N K Watson; D Websdale; A Weiden; M Whitehead; J Wicht; G Wilkinson; M Wilkinson; M Williams; M P Williams; M Williams; T Williams; F F Wilson; J Wimberley; M A Winn; J Wishahi; W Wislicki; M Witek; G Wormser; S A Wotton; K Wraight; K Wyllie; Y Xie; Z Xu; Z Yang; Z Yang; Y Yao; H Yin; J Yu; X Yuan; O Yushchenko; K A Zarebski; M Zavertyaev; L Zhang; Y Zhang; A Zhelezov; Y Zheng; X Zhu; V Zhukov; S Zucchelli
Journal:  Eur Phys J C Part Fields       Date:  2017-09-14       Impact factor: 4.590
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