Analyse de données en physique des hautes énergies et ondes gravitationnelles (en)

CP3 - Research directions and experiments
Through the analysis of data taken in high energy physics experiments we seek to determine the properties of elementary particles and the probabilities of occurrence of natural phenomena only visible at the scale of the attometer (or electroweak scale). We also search for new phenomena such as the production of new particles (predicted or not by a given theory) or anomalous cross sections or distributions. These measurements can also be used to extract or fit fundamental constants within the context of a given theoretical model, thereby providing the experimental inputs required to address phenomenology of elementary particles.

Most of the time, the processes under study are very rare and suffer from large background contaminations that need to be filtered out by sophisticated online trigger systems and through additional criteria applied on stored data. In order to achieve an optimal strategy for the signal selection, the use of specific observables from the basic reconstructed quantities from the detector is mandatory. The quality of these observables relies on the good calibration of the experimental set-up and on the quality of particle identification and reconstruction software. Furthermore this optimization must be realized while keeping a good understanding of the trigger and reconstruction efficiencies and while keeping the level of systematic uncertainties as low as possible.

Analyses strategies are therefore numerous and depend on the goal(s) to be achieved. They range from very simple and robust (e.g., cut-based analyses techniques) to more elaborated selection strategies which make use of kinematic fitting, multivariate analyses (such as artificial neural networks), or the so-called matrix element method.

Members of CP3 have been actively involved in the analysis of data collected by former CHARM II, CHORUS, ALEPH, DELPHI, H1 and ZEUS experiments. Since many years, members of CP3 participate to the analysis of the data collected by the CMS experiment at the LHC. They cover a wide range of physics topics, from top quark and Higgs boson studies to searches for SuperSymmetry and exotic particles. More recently, the analysis of the data collected by the fixed-target NA62 experiment at the SPS has also begun.

Advanced tools for simulation and data analysis of general interest for the HEP community, like DELPHES and MoMEMta, have been developed and are being maintained at CP3, although released as open-source code.

Projects

Click the title to show project description.
  • MoMEMta is a C++ software package to compute Matrix Element weights. Designed in a modular way, it covers the needs of experimental analysis workflows at the LHC. MoMEMta provides working examples for the most common final states (<latex>$tt\bar$</latex>, WW, ...). If you are an expert user, be prepared to feel the freedom of configuring your MEM computation at all levels.
    MoMEMta is based on:

    - C++, ROOT, Lua scripting language
    - Cuba (Monte-Carlo integration library)
    - External PDFs (LHAPDF by default)
    - External Matrix Elements (currently provided by our MadGraph C++ exporter plugin)

  • With the 2012 discovery of the Higgs boson at the Large Hadron Collider, LHC, the Standard Model of particle physics has been completed, emerging as a most successful description of matter at the smallest distance scales. But as is always the case, the observation of this particle has also heralded the dawn of a new era in the field: particle physics is now turning to the mysteries posed by the presence of dark matter in the universe, as well as the very existence of the Higgs. The upcoming run of the LHC at 13 TeV will probe possible answers to both issues, providing detailed measurements of the properties of the Higgs and extending significantly the sensitivity to new phenomena.

    Since the LHC is the only accelerator currently exploring the energy frontier, it is imperative that the analyses of the collected data use the most powerful possible techniques. In recent years several analyses have utilized multi-variate analysis techniques, obtaining higher sensitivity; yet there is ample room for further improvement. With our program we will import and specialize the most powerful advanced statistical learning techniques to data analyses at the LHC, with the objective of maximizing the chance of new physics discoveries.

    We have been part of AMVA4NewPhysics, a network of European institutions whose goal is to foster the development and exploitation of Advanced Multi-Variate Analysis for New Physics searches. The network offered between 2015 and 2019 extensive training in both physics and advanced analysis techniques to graduate students, focusing on providing them with the know-how and the experience to boost their career prospects in and outside academia. The network develops ties with non-academic partners for the creation of interdisciplinary software tools, allowing a successful knowledge transfer in both directions. The network studies innovative techniques and identifies their suitability to problems encountered in searches for new physics at the LHC and detailed studies of the Higgs boson sector.

  • Observability of new phenomenological models in High Energy experiments is delicate to evaluate, due to the complexity of the related detectors, DAQ chain and software. Delphes is a new framework for fast simulation of a general purpose experiment. The simulation includes a tracking system, a magnetic field, calorimetry and a muon system, and possible very forward detectors arranged along the beamline. The framework is interfaced to standard file format from event generators and outputs observable analysis data objects. The simulation takes into account the detector resolutions, usual reconstruction algorithms for complex objects (FastJet) and a simplified trigger emulation. Detection of very forward scattered particles relies on the transport in beamlines with the Hector software.

  • High-energy photon-photon and photon-proton interactions at the LHC offer interesting possibilities for the study of the electroweak sector up to TeV scale and the search for processes beyond the Standard Model. After in-depth exploratory studies, first measurements of two-photon muon pair production were performed as well as first ever observation of W boson pairs produced by photon fusion. Now unique investigations of quartic couplings between photons and W and Z bosons are being pursued.

    Surveying the scientific potential of the new e-ion collider at Brookhaven (EIC) and the future LHeC at CERN.

  • The NA62 experiment in the North Area of the CERN SPS is now fully operational and taking data. The plan is to collect the highest statistics ever reached for <latex>$K^+$</latex> decays, of the order of <latex>$10^{13}$</latex> events in the fiducial decay region of the detector until the end of 2018. This high-intensity and high-precision setup makes it possible to probe a number of ultra-rare or forbidden decay channels. Of particular interest to the CP3 group are the LFV/LNV <latex>$K^+ \rightarrow \pi^{+}\mu^{\pm}e^{\mp}$</latex> and <latex>$K^+ \rightarrow \pi^{-}l^+l'^+ (l,l' = e,\mu})$</latex> modes.

    Many BSM theories predict some degree of LFV, including Supersymmetry or the introduction of massive neutrinos. Furthermore, there are indirect hints for New Physics in the flavor sector, e.g. in the semileptonic decays of B-mesons. Explanations for the observed discrepancies predict effects of LFV in kaon decays. These particular LFV/LNV <latex>$K \rightarrow \pi ll$</latex> processes which at present are not covered by another experiment provide an attractive opportunity to test the SM. Any observable rate for one of these modes would constitute unambiguous evidence for New Physics. Considering the statistics that will be available at NA62 the current limits on their branching-ratios could be improved by at least one order of magnitude.

  • This project aims at optimising neutrino telescopes, especially the IceCube Neutrino Observatory and KM3NeT, to detect GeV and sub-GeV astrophysical neutrinos. The instruments are then used to search for low-energy neutrinos from transient sources, such as solar flares, compact binary mergers, or gamma-ray bursts.

  • We are among the founders of MODE (Machine-learning Optimized Design of Experiments, https://mode-collaboration.github.io/), a multi-disciplinary consortium of European and American physicists and computer scientists who target the use of differentiable programming in design optimization of detectors for particle physics applications, extending from fundamental research at accelerators, in space, and in nuclear physics and neutrino facilities, to industrial applications employing the technology of radiation detection.

    We aim to develop a modular, customizable, and scalable, fully differentiable pipeline for the end-to-end optimization of articulated objective functions that model in full the true goals of experimental particle physics endeavours, to ensure optimal detector performance, analysis potential, and cost-effectiveness.
    The main goal of our activities is to develop an architecture that can be adapted to the above use cases but will also be customizable to any other experimental endeavour employing particle detection at its core. We welcome suggestions, as well as interest in joining our effort, by researchers focusing on use cases for which this technology can be of benefit.

    Two CP3 members currently serve as members of the MODE Supervisory Board.

  • This project aims at studying astrophysical phenomena combining different messengers, mainly neutrinos and gravitational waves.

  • We take advantage of the large statistics being recorded by the CMS experiment in Run 2 to launch a systematic study of cross section, angular asymmetries and other properties in the ttW process, which have a potentially large sensitivity to non-SM effects.
    In synergy with the CP3 phenomenology group, we aim at reporting our results in a form that can be easily translated in EFT constraints.

  • Search for Higgs boson(s) within the Standard Model and beyond and also withing a minimal extension of the scalar sector (2HDM).

    The final state under study is a Z decaying into a lepton pair associated with two b-jets. This topology is sensitive to a light SM Higgs via the associate ZH production, as well as a middle mass range SM Higgs boson via the inclusive Higgs production followed by its decay into ZZ with one Z decaying into a lepton pair and the other into bbar.

    It is also very sensitive to the production of a non standard heavy Higgs boson decaying into Z plus A (pseudo scalar Higgs boson).

    Similar selection (but outside of the Z window) is also sensitive to H->aa->llbb, with "a" a generic light scalar.

  • A resonance consistent with the stanadard model Higgs boson with mass of about 125 GeV was discovered in 2012 by the CMS and ATLAS experiments at the LHC. Using the available dataset (2011+2012 LHC runs) evidence was later found of the existence of the SM-predicted decay into a pair of tau leptons. The CP3 Louvain group has been involved in the channel where the Higgs boson is produced in association with the Z boson and decays into a pair of tau leptons.

    A search for additional Higgs bosons in the general framework of models with two Higgs doublets (2HDM) was then performed by the same CP3 group using the same final state and the full Run-1 data. Models with two Higgs doublets feature a pseudoscalar boson, A, two charged scalars (H+-) and two neutral (h0 and H0) scalars, one of which is identified with the 125 GeV SM-like Higgs resonance. In some scenarios the most favored decay chain for the discovery of the additional neutral bosons is H0-->ZA-->llττ (or llbb). The search was carried out in collaboration with another group in CP3 who looks at the llbb final state.

    An update of both the SM search and the exotic one is expected using the Run-2 dataset using more advanced techniques and by adding the llee and llmumu channels.

  • Many well motivated new physics extensions of the SM include new particles whose decay width is very small and hence have a decay length which is macroscopic. One very attractive and minimal extension of the standard model is one with right-handed neutrinos with Majorana masses below the electroweak scale (low scale see-saw). This addition is able to generate both the light neutrino masses and the baryon asymmetry of the universe via low scale leptogenesis. In what is probably the most studied model that invokes the low scale seesaw, the Neutrino Minimal Standard Model [2], one of the three right-handed neutrinos is a dark matter candidate. A large allowed region of phase space for right handed neutrinos spans masses between 1 and 50 GeV with corresponding lifetimes (cτ) ranging from 10^3 to 10^-4 m. For higher masses the right handed neutrino basically decays promptly and for lower masses the probability that it decays within the detector volume is virtually zero thus giving rise to missing transverse momentum in the detector. These latter two extreme cases can be captured experimentally by standard searches at the general purpose LHC experiments, while the intermediate case is the natural target of the so-called “displaced” searches, which are highly peculiar and challenging analyses at the LHC in high demand for dedicated data reconstruction tools in order to extend their sensitivity. We intend to search for long-lived sterile neutrinos decaying at displaced vertices into a charged light lepton and hadrons. A fundamental ingredient of this search is the identification of charged tracks emerging from highly displaced vertices.

  • The CMS detector at the LHC is used to search for yet unobserved heavy (mass >100 GeV/c$^2$), long-lived (lifetime > 1 ns), electrically charged particles, called generically HSCPs.
    HSCPs can be distinguished from Standard Model particles by exploiting their unique signature: very high momentum and low velocity. These features are a consequence of their high mass and the relatively limited LHC collision energy. Two experimental techniques are used to identify such hypothetical heavy and low-velocity particles: the measurement of the ionization energy loss rate using the all-silicon tracker detector and the time-of-flight measurement with the muon detectors.

    UCL members have developed the ionization energy loss identification technique and have lead the CMS HSCP search since 2010, when the first HSCP paper became one of the first published LHC search papers. Updated results, using the 2011 dataset, were then published followed by a comprehensive paper including also searches for fractional and multiply-charged particles published using the full CMS Run-1 dataset. The results obtained by analysing the 2015 Run 2 data at 13 TeV have also been published.

    The analysis, which is very inclusive, doesn't find evidence of HSCP. It currently excludes, among various models, the existence of quasi-stable gluinos, predicted by certain realizations of supersymmetry, and Drell-Yan-produced staus with masses lower than about 1.3 TeV and 350 GeV, respectively. These and the other limits set by the analysis are the most stringent to date. The CMS HSCP papers total to date more than 300 citations.

  • The lack of observed resonances produced at the LHC motivates finding new ways of searching for BSM phenomena. This project aims at discovering possible non-resonant New Physics affecting the production of Top quark pairs, by means of a dedicated analysis of data recorded by the CMS experiment. The New Physics effects are modeled using an effective field theory (EFT), whose parameters are to be measured or constrained in a global fit.

    The analysis is conducted in close collaboration with phenomenologists to ensure the approach is theoretically sound and future-proof.

  • The discovery of a Higgs boson (H) by the ATLAS and CMS experiments fixes the value of the self-coupling λ in the scalar potential whose form is determined by the symmetries of the Standard Model and the requirement of renormalisability. Higgs boson pair production is sensitive to the self-coupling and will play a major role in investigating the scalar potential structure.

    This project consists in a search for nonresonant Higgs boson pair production via gluon fusion in the final state with two leptons, two b jets and missing transvere energy – gg → H(bb) H(WW) asking for the leptonic decay of the W's. The analysis is conducted in close collaboration with phenomenologists to ensure the approach is theoretically sound and future-proof.

  • The recent discovery of a scalar boson compatible with the Standard Model (SM) Higgs boson opened new windows to look for physics beyond the SM (BSM). An example of newly accessible phenomenology is the production of resonances decaying into two SM Higgs bosons (h) predicted by several theory families such as additional Higgs singlet/doublet or warped extra dimension.

    This project consists in a search for spin-0 or spin-2 resonances produced via gluon fusion in the final state with two leptons, two b-jets and missing transverse energy – gg → X → h(bb) h(WW) asking for the leptonic decay of the W's. In particular, we are probing a mass range between 260 GeV and 900 GeV.

  • The electroweak production cross section of single top quarks is an important measurement for LHC, being a potential window on "new physics" effects.
    Past achievements of this group include the very first measurement at 7 TeV (in t channel) with 2010 data, followed by the most precise inclusive cross section measurements of t-channel cross section at 7, 8 and 13 TeV, and the first differential measurements at 13 TeV; the most precise |Vtb| extraction from single top in the world; the first measurement of W-helicity fractions in a single-top topology; the first observation of the tW production mode; the first measurement of single-top polarization in t channel; stringent limits on anomalous tWb, tgu, tgc couplings.

  • The top quark, being the heaviest known elementary particle, is a powerful tool to test QCD.
    The study of top quark pair production in Heavy Ion collisions at the LHC, making use of the dedicated Pb-Pb and p-Pb runs, will open a new road in the investigation of the Quark-Gluon Plasma.

    This research project started with the first measurement of top-pair cross section in pp collisions at 5.02 TeV, taking advantage of a "reference run" in Nov.2015. We then update the result with a new publication making use of the larger statistics collected at the end of 2017. This measurement, in addition to being useful as a reference for measurements in Pb-Pb and p-Pb collisions at the same center-of-mass energy per nucleon, also provides a significant broadening of the lever arm for global PDF fits making use of top-quark data.

    We then reported the first observation of top quark production in p-Pb collisions, using the data at 8.16 TeV taken in Nov.2016, testing the models of nuclear modification of the gluon PDF at high Bjorken-x. Finally, we provided evidence of top quark production also in Pb-Pb collisions.

    We are interested in using future PbPb collision data to probe the time evolution of the QGP using top quarks.

  • We know that a lot of matter we cannot see affects the motion of the stars around the center of the galaxy. This matter is present on earth, and in theory can interact directly with the mirrors in LIGO-Virgo in a specific way depending on the mass of the constituent particles. Since the dark matter is always present, the signal is at a fixed frequency that impinges on the detector. We are developing methods that search for this unique signature of dark matter.

  • The stochastic gravitational wave background (SGWB) originates from the superposition of gravitational waves of many astrophysical and cosmological sources. The variety of possible sources is huge, ranging from binary coalescences to cosmic strings or even gravitational waves produced during inflation or phase transitions. A detection of the SGWB would have a large impact on our understanding of black hole populations or cosmological models. Observing gravitational waves of inflation would be at least as revolutionary as the first observation of the cosmic microwave background. CP3 members are responsible for one of the three official directional searches conducted by LIGO and Virgo.

  • The detection of gravitational waves from the merger of heavy binary black hole and neutron star systems has driven the worldwide interest in gravitational wave physics. However, we have only seen the last second or less of these systems’ lives. If the black holes were less massive, we could actually have seen them as they were slowly moving towards each other. Lighter black holes imply different physics and formation mechanisms for them in the universe, hence a detection of these so-called primordial black holes would be a major breakthrough in physics.

  • If ultralight dark matter exists and is composed of bosons, dark matter clouds can form around black holes after their birth and grow exponentially in size by extracting energy and spin from the black holes. Once the cloud has fully formed, the bosons will couple to each other and annihilate, emitting almost monochromatic (fixed energy) gravitational waves for extremely long periods of time. The boson can be treated as a scalar, vector or tensor field, which all imply different timescales for growth and deletion, and gravitational wave signal strength. Additionally, the implications of a detection of differ for each of these fields.

Recent Publications

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  • CMS Collaboration, June 7, 2022
    Refereed paper. Public experimental note. [Local file] [Full text]

  • Pietro Vischia, April 25, 2022
    Contribution to proceedings. [Abstract] [PDF] [Local file]

  • CMS collaboration, March 22, 2022
    Public experimental note. [Full text]

  • Angela Taliercio, Paola Mastrapasqua, Claudio Caputo, Pietro Vischia, Nicola De Filippis, Pushpa Bhat, March 21, 2022
    Refereed paper. [Abstract] [PDF] [Local file]

  • Bury, F. and Tishelman-Charny, A. and Donertas, I.S. and Jain, S. and Guzel, O. and others, March 16, 2022
    Public experimental note. [Local file] [Full text]

  • Butter, Anja and others, March 14, 2022
    Contribution to proceedings. [Abstract] [PDF]

  • Federico De Lillo, Jishnu Suresh, Andrew L. Miller, March 8, 2022
    Refereed paper. [Abstract] [PDF] [Local file] [Journal]

  • D'Errico, M. and others, February 28, 2022
    Contribution to proceedings. [Abstract] [PDF]

  • Butter, Anja and Diefenbacher, Sascha and Kasieczka, Gregor and Nachman, Benjamin and Plehn, Tilman and Shih, David and Winterhalder, Ramon, February 17, 2022
    [Abstract] [PDF]

  • Tumasyan, Armen and others, December 20, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Winterhalder, Ramon and Bellagente, Marco and Nachman, Benjamin, November 3, 2021
    Refereed paper. [Abstract] [PDF]

  • Samalan, A. and others, September 30, 2021
    Contribution to proceedings. [Abstract] [PDF] [Journal]

  • Miguel Arratia, Anja Butter, Mario Campanelli, Vincent Croft, Aishik Ghosh, Dag Gillberg, Kristin Lohwasser, Bogdan Malaescu, Vinicius Mikuni, Benjamin Nachman, Juan Rojo, Jesse Thaler, Ramon Winterhalder, September 23, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, Rich and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Abbott, R. and others, June 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Sirunyan, Albert M and others, June 16, 2021
    Public experimental note. [Full text]

  • Stakia, Anna and others, May 18, 2021
    Refereed paper. [Abstract] [PDF] [Journal]

  • MODE collaboration, March 31, 2021
    [Full text]

  • CMS Collaboration, March 21, 2021
    Public experimental note. [Full text]

  • The LIGO Scientific Collaboration and the Virgo Collaboration and the KAGRA Collaboration, March 16, 2021
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • David, Pieter, February 28, 2021
    Contribution to proceedings. [Abstract] [PDF] [Full text]

  • Miller, Andrew L. and others, December 26, 2020
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Miller, Andrew L. and Clesse, S\'ebastien and De Lillo, Federico and Bruno, Giacomo and Depasse, Antoine and Tanasijczuk, Andres, December 26, 2020
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Shehu S. AbdusSalam and others, December 14, 2020
    [Abstract] [PDF]

  • Sirunyan, Albert M and others, November 22, 2020
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Sirunyan, Albert M and others, November 22, 2020
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Sirunyan, Albert M and others, November 10, 2020
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Sirunyan, Albert M and others, November 2, 2020
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text]

  • Ankit Beniwal, Juan Herrero-García, Nicholas Leerdam, Martin White and Anthony G. Williams, October 12, 2020
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Pietro Vischia, September 8, 2020
    Refereed paper. [Abstract] [PDF]

  • von Buddenbrock, Stefan and Ruiz, Richard and Mellado, Bruce, August 21, 2020
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS Collaboration, August 2, 2020
    Public experimental note. [Full text]

  • Bury, Florian and Delaere, Christophe, July 14, 2020
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • P. Athron, C. Balázs, A. Beniwal, J. E. L. Molina, A. Fowlie, T. E. Gonzalo, S. Hoof, F. Kahlhoefer, D. J. E. Marsh, M. T. Prim, P. Scott, W. Su, M. White, L. Wu, Y. Zhang, July 13, 2020
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS collaboration, July 2, 2020
    Public experimental note. [Full text]

  • CMS collaboration, June 25, 2020
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • LIGO Scientific and Virgo Collaborations, June 24, 2020
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text]

  • CMS Collaboration, June 24, 2020
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text]

  • Sirunyan, Albert M and others, June 22, 2020
    Refereed paper. [Abstract] [PDF] [Journal]

  • Michele Gallinaro, Kenneth Long, Jurgen Reuter, Richard Ruiz, May 5, 2020
    Contribution to proceedings. [Abstract] [PDF]

  • Abdallah, Waleed and others, March 17, 2020
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • N. Andari (CEA, Saclay, France), L. Apolinário (LIP, Lisbon, Portugal), K. Augsten (Czech Technical University in Prague, Czech Republic), E. Bakos (Institute if Physics Belgrade,Serbia), I. Bellafont (CELLS-ALBA, Cerdanyola del Vallès, Spain), L. Beresford (The University of Oxford, United Kingdom), A. Bethani (Université catholique de Louvain, Louvain-la-Neuve, Belgium), J. Beyer (DESY Hamburg, Germany), L. Bianchini (INFN Sezione di Pisa, Italy), C. Bierlich (Lund University, Sweden), B. Bilin (ULB/IIHE, Brussels, Belgium), K. L. Bjørke (University of Oslo, Norway), E. Bols (Vrije Universiteit Brussel, Brussels, Belgium), P. A. Brás (Laboratory of Instrumentation and Experimental Particle Physics, Lisbon, Portugal), L. Brenner (DESY - Deutsches Elektronen-SYnchrotron, Hamburg, Germany), E. Brondolin (CERN, Geneva, Switzerland), P. Calvo (Centro de Investigaciones Energéticas, Medioambientales y Tecnológicas (CIEMAT), Madrid, Spain), B. Capdevila (Institut de Física d'Altes Energies, Barcelona, Spain), I. Cioara (Horia Hulubei National Institute for R&D in Physics and Nuclear Engineering, Bucharest-MG, Romania), L. N. Cojocariu (Horia Hulubei National Institute for R&D in Physics and Nuclear Engineering (IFIN-HH), Bucharest-MG, Romania), F. Collamati (Istituto Nazionale di Fisica Nucleare, Sezione di Roma, Piazzale Aldo Moro 2, Roma, Italy), A. de Wit (DESY,Hamburg, Germany), F. Dordei (Istituto Nazionale di Fisica Nucleare (INFN), sezione di Cagliari, Complesso Universitario di Monserrato Monserrato, Cagliari, Italy), M. Dordevic (VINCA Institute of Nuclear Sciences, University of Belgrade, Serbia), T. A. du Pree (Nikhef, National Institute of Subatomic Physics, Amsterdam, The Netherlands), L. Dufour (CERN, Geneva, Switzerland), A. Dziurda (Institute of Nuclear Physics Polish Academy of Science, Krakow, Poland), U. Einhaus (DESY, Hamburg, Germany), A. A. Elliot (Queen Mary University of London, United Kingdom), S. Esen (Nikhef, Amsterdam, Netherlands), J. Ferradas Troitino (CERN, Geneva, Switzerland), C. Franco (LIP, Lisbon, Portugal), J. García Pardiñas (Universität Zürich, Zürich, Switzerland), A. García Alonso (IFCA, Santander, Spain), A. Ghosh (Université Paris-Saclay, CNRS/IN2P3, IJCLab, Orsay, France), G. Gilles (Bergische Universität Wuppertal, Wuppertal, Germany), A. Giribono (INFN - LNF, Frascati, Italy), L. Gouskos (CERN, Geneva, Switzerland), E. Gouveia (LIP, Campus de Gualtar, Braga, Portugal), E. Graverini (École Polytechnique Fédérale de Lausanne (EPFL), Cubotron, Lausanne, Switzerland), J. K. Heikkilä (University of Zurich, Zurich, Switzerland), H. N. Heracleous (CERN, Geneva, Switzerland), T. Herman (Czech Technical University in Prague, Prague, Czech Republic), N. Hermansson-Truedsson (Lund University (Currently at Universität Bern), Lund, Sweden), J. Hrtánková (Nuclear Physics Institute of the Czech Academy of Sciences, Řež, Czech Republic), P. S. Hussain (HEPHY, Wien, Austria), A. Irles (Université Paris-Saclay, CNRS/IN2P3, IJCLab, Orsay, France), H. Jansen (DESY, Hamburg, Germany), P. Kalaczynski (NCBJ, Warsaw, Poland), J. Karancsi (Institute for Nuclear Research (ATOMKI), Debrecen, Hungary), P. Kontaxakis (National and Kapodistrian University of Athens, Greece), S. Kostoglou (National Technical University of Athens (NTUA), Greece), A. Koulouris (NTU Athens, Greece), M. Koval (Charles University, Prague, Czech Republic), K. Krizkova Gajdosova (Czech Technical University in Prague, Czech Republic), J. A. Krzysiak (IFJ PAN (Institute of Nuclear Physics, Polish Academy of Sciences), Krakow, Poland), M. Kuich (University of Warsaw, Poland), O. Lantwin (Universität Zürich, Switzerland), F. Lasagni Manghi (INFN Bologna, Italy), L. Lechner (Institute for High Energy Physics, Vienna, Austria), S. Leontsinis (University of Zurich, Switzerland), K. Lieret (Ludwig Maximilan University, Munich, Germany), A. Lobanov (Ecole Polytechnique, Palaiseau, France), J. M. Lorenz (LMU Muenchen, Garching, Germany), G. Luparello (Istituto Nazionale di Fisica Nucleare (INFN), sezione di Trieste, Italy), N. Lurkin (University of Birmingham, United Kingdom), K. H. Mankinen (Lund University, Sweden), E. Manoni (INFN Sezione di Perugia, Italy), L. Mantani (Université catholique de Louvain, Louvain la Neuve, Belgium), R. Marchevski (CERN, Geneva, Switzerland), C. Marin Benito (Université Paris-Saclay, CNRS/IN2P3, IJCLab, Orsay, France), A. Mathad (Universität Zürich, Switzerland), J. McFayden (CERN, Geneva, Switzerland), P. Milenovic (University of Belgrade, Serbia), V. Milosevic (Imperial College London, Blackett Laboratory, London, United Kingdom), D. S. Mitzel (CERN, Geneva, Switzerland), Z. Moravcová (Niels Bohr Institute, University of Copenhagen, Denmark), L. Moureaux (ULB, Brussels, Belgium), G. A. Mullier (Lund University, Sweden), M. E. Nelson (Stockholm University and The Oskar Klein Centre for Cosmoparticle Physics, Stockholm, Sweden), J. Ngadiuba (CERN, Geneva, Switzerland), N. Nikiforou (University of Texas at Austin, United States), M. W. OKeefe (University of Liverpool, The Oliver Lodge Laboratory, Liverpool, United Kingdom), R. Pedro (LIP, Lisbon, Portugal), J. Pekkanen (University at Buffalo, Buffalo, United States), M. Queitsch-Maitland (CERN, Geneva, Switzerland), M. P. L. P. Ramos (LIP, Campus de Gualtar, Braga, Portugal), C. Ø. Rasmussen (CERN, Geneva, Switzerland), J. Rembser (CNRS/IN2P3, Institut Polytechnique de Paris, Ecole Polytechnique, Palaiseau, France), E. T. J. Reynolds (University of Birmingham, United Kingdom), M. Sas (Nikhef/Utrecht University, Amsterdam, Netherlands), R. Schöfbeck (HEPHY, Vienna, Austria), M. Schenk (EPFL, Lausanne, Switzerland), P. Schwendimann (Paul Scherrer Institute, Villigen PSI, Switzerland), K. Shchelina (LIP, Lisbon, Portugal), M. Shopova (Institute for Nuclear Research and Nuclear Energy (INRNE) - BAS, Sofia, Bulgaria), S. Sekmen (Kyungpook National University, Daegu, Republic of Korea), S. Spannagel (DESY, Hamburg, Germany), I. A. Sputowska (The Henryk Niewodniczański Institute of Nuclear Physics Polish Academy of Sciences, Kraków, Poland), R. Staszewski (Institute of Nuclear Physics Polish Academy of Sciences, Cracow, Poland), P. Sznajder (National Centre for Nuclear Research (NCBJ), Warsaw, Poland), A. Takacs (University of Bergen, Bergen, Norway), V. T. Tenorth (Max-Planck-Institut für Kernphysik, Heidelberg, Germany), L. Thomas (ULB, Bruxelles, Belgium), R. Torre (CERN, Geneva, Switzerland), F. Trovato (University of Sussex, Brighton, UK), M. Valente (Université de Genève, Genève, Switzerland), H. Van Haevermaet (University Of Antwerp, Antwerpen, Belgium), J. Vanek (Nuclear Physics Institute, Czech Academy of Sciences, Rez, Czech Republic), M. Verstraeten (Universiteit Antwerpen, Antwerp, Belgium), P. Verwilligen (INFN sezione di Bari, Italy), M. Verzetti (CERN, Geneva, Switzerland), V. Vislavicius (University of Copenhagen, Copenhagen, Denmark), B. Vormwald (University of Hamburg, Hamburg, Germany), E. Vourliotis (National and Kapodistrian University of Athens, Greece), J. Walder (Lancaster University, United Kingdom), C. Wiglesworth (University of Copenhagen, Denmark), S. L. Williams (University of Cambridge, United Kingdom), A. Zaborowska (CERN, Geneva, Switzerland), D. Zanzi (CERN, Geneva, Switzerland), L. Zivkovic (Institute of Physics Belgrade, Serbia), February 27, 2020
    [Abstract] [PDF] [Full text]

  • Sirunyan, Albert M and others, February 11, 2020
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Cepeda, M. and others, January 26, 2020
    Public experimental note. [Abstract] [PDF] [Journal]

  • Basnet, S. and others, December 6, 2019
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Buarque Franzosi, Diogo and Mattelaer, Olivier and Ruiz, Richard and Shil, Sujay, November 29, 2019
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS collaboration, November 6, 2019
    Public experimental note. [Full text]

  • D. Barducci, K. Mimasu, J. M. No, C. Vernieri and J. Zurita, October 14, 2019
    Refereed paper.

  • Ankit Beniwal (On behalf of the GAMBIT Collaboration), October 11, 2019
    Contribution to proceedings. [Abstract] [PDF]

  • von Buddenbrock, Stefan and Mattelaer, Olivier and Spannowsky, Michael, August 14, 2019
    Refereed paper. [Abstract] [PDF]

  • Chrzaszcz, Marcin and Drewes, Marco and Gonzalo, Tomás E. and Harz, Julia and Krishnamurthy, Suraj and Weniger, Christoph, August 8, 2019
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Alessia Saggio, Olivier Bondu, Miguel Vidal Marono, Christophe Delaere, Pieter David, Sebastien Wertz, May 29, 2019
    Private experimental note. [Full text]

  • CMS collaboration, May 29, 2019
    Public experimental note. [Full text 1] [Full text 2]

  • Vischia, Pietro, April 29, 2019
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text]

  • Alimena, Juliette and others, March 12, 2019
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Sirunyan, Albert M and others, December 18, 2018
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS Collaboration, December 17, 2018
    [Full text]

  • Working Group 5 (HL-LHC, HE-LHC), December 15, 2018
    [Abstract] [PDF] [Full text]

  • Buonocore, Luca and Frugiuele, Claudia and Maltoni, Fabio and Mattelaer, Olivier and Tramontano, Francesco, December 3, 2018
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Sirunyan, Albert M and others, November 27, 2018
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Clerbaux, Barbara and Fang, Wenxing and Giammanco, Andrea and Goldouzian, Reza, August 9, 2018
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Hajer, Jan and Li, Ying-Ying and Liu, Tao and Wang, He, July 30, 2018
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS Collaboration, July 6, 2018
    Public experimental note. [Full text]

  • CMS Collaboration, July 6, 2018
    Public experimental note. [Full text]

  • Jorgen D'Hondt, Alberto Mariotti, Ken Mimasu, Seth Moortgat, Cen Zhang, July 5, 2018

  • Brochet, Sébastien and Delaere, Christophe and François, Brieuc and Lemaître, Vincent and Mertens, Alexandre and Saggio, Alessia and Vidal Marono, Miguel and Wertz, Sébastien, May 23, 2018
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS Collaboration, March 5, 2018
    Public experimental note. [Full text]

  • CMS Collaboration, March 5, 2018
    Public experimental note. [Full text]

  • Georgios Konstantinos Krintiras (On behalf of the CMS Collaboration), January 29, 2018
    Contribution to proceedings. [Abstract] [PDF]

  • Georgios Konstantinos Krintiras (On behalf of the CMS Collaboration), January 29, 2018
    Contribution to proceedings. [Abstract] [PDF]

  • Georgios Konstantinos Krintiras (On behalf of the CMS Collaboration), January 29, 2018
    Contribution to proceedings. [Abstract] [PDF]

  • Georgios Konstantinos Krintiras (on behalf of the CMS Collaboration), January 29, 2018
    Contribution to proceedings. [Abstract] [PDF]

  • Hamed Bakhshiansohi, January 29, 2018
    Contribution to proceedings. [Full text]

  • Hamed Bakhshiansohi, January 29, 2018
    Contribution to proceedings. [Full text]

  • Hamed Bakhshiansohi, January 29, 2018
    Contribution to proceedings. [Full text]

  • Georgios Konstantinos Krintiras (on behalf of the CMS Collaboration), January 26, 2018
    Contribution to proceedings. [Abstract] [PDF]

  • Giammanco, Andrea, December 6, 2017
    Contribution to proceedings. [Abstract] [PDF]

  • Sirunyan, A. M. and others, November 10, 2017
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Giammanco, Andrea and Schwienhorst, Reinhard, October 25, 2017
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Alexandra Carvalho, Florian Goertz, Ken Mimasu, Maxime Gouzevitch, Anamika Aggarwal, October 24, 2017
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Giammanco, Andrea and Gauld, Rhorry and Pearce, Alex, October 12, 2017
    Contribution to proceedings. [Abstract] [PDF] [Journal]

  • Sirunyan, Albert M and others, September 22, 2017
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • O. Bondu, S. Brochet, C. Delaere, M. Delcourt, B. Francois, V. Lemaitre, M. Vidal Marono, S. Wertz, August 21, 2017
    Private experimental note. [Full text]

  • O. Bondu, S. Brochet, C. Delaere, M. Delcourt, B. François, V. Lemaître, M. Vidal Marono, S. Wertz, August 21, 2017
    Private experimental note. [Full text]

  • CMS collaboration, August 21, 2017
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text]

  • CMS collaboration, August 21, 2017
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text]

  • CMS Collaboration, June 6, 2017
    Public experimental note. [Full text]

  • CMS collaboration, April 4, 2017
    [Full text]

  • Khachatryan, Vardan and others, January 10, 2017
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS Collaboration, December 1, 2016
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Khachatryan, Vardan and others, October 6, 2016
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Khachatryan, Vardan and others, October 6, 2016
    [Abstract] [PDF] [Journal] [Dial]

  • Sirunyan, Albert M and others, October 4, 2016
    Refereed paper. Public experimental note. [Abstract] [PDF] [Journal] [Dial]

  • CMS collaboration, June 16, 2016
    Public experimental note. [Full text]

  • ATLAS and CMS collaborations, May 24, 2016
    Public experimental note. [Full text]

  • CMS collaboration, April 28, 2016
    Public experimental note. [Full text]

  • CMS collaboration, April 28, 2016
    Public experimental note. [Full text]

  • CMS collaboration, April 28, 2016
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text]

  • CMS Collaboration, April 27, 2016
    Public experimental note. [Full text]

  • CMS Collaboration, April 22, 2016
    Public experimental note. [Full text]

  • CMS Collaboration, April 22, 2016
    Public experimental note. [Full text]

  • CMS Collaboration, April 22, 2016
    Public experimental note. [Full text]

  • Khachatryan, Vardan and others, April 19, 2016
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS collaboration, March 25, 2016
    Public experimental note. [Full text]

  • Backović, Mihailo, March 3, 2016
    Refereed paper. [Abstract] [PDF]

  • CMS Collaboration, March 3, 2016
    Public experimental note. [Full text]

  • CMS Collaboration, December 1, 2015
    Public experimental note. [Full text]

  • CMS Collaboration, December 1, 2015
    Public experimental note. [Full text]

  • Andrea Giammanco, November 23, 2015
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text]

  • Khachatryan, Vardan and others, November 9, 2015
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS collaboration, October 29, 2015
    Public experimental note. [Full text]

  • Khachatryan, Vardan and others, October 20, 2015
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS collaboration, October 3, 2015
    Public experimental note. [Full text]

  • Khachatryan, Vardan and others, September 29, 2015
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS collaboration, September 14, 2015
    Public experimental note. [Full text]

  • CMS collaboration, September 1, 2015
    Public experimental note. [Full text]

  • CMS collaboration, September 1, 2015
    Public experimental note. [Full text]

  • CMS collaboration, July 24, 2015
    Public experimental note. [Full text]

  • Backovic, Mihailo and Flacke, Thomas and Kim, Jeong Han and Lee, Seung J., July 22, 2015
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Mario Galanti, Andrea Giammanco, Yuval Grossman, Yevgeny Kats, Emmanuel Stamou, Jure Zupan, May 14, 2015
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text]

  • Khachatryan, Vardan and others, February 10, 2015
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Matthias Komm on behalf of the CMS collaboration , December 1, 2014
    Contribution to proceedings. [Abstract] [PDF]

  • C. Delaere, B. Francois, V. Lemaitre, A. Mertens, M. Vidal Marono, December 1, 2014
    Private experimental note. [Full text]

  • Abideh Jafari and Andrea Giammanco, November 30, 2014
    Private experimental note. [Full text]

  • Abideh Jafari on behalf of the CMS and ATLAS collaborations, November 30, 2014
    Contribution to proceedings. [Abstract] [PDF]

  • Andrey Popov on behalf of the CMS collaboration, November 28, 2014
    Contribution to proceedings. [Abstract] [PDF]

  • Andrey Popov on behalf of the CMS collaboration, November 28, 2014
    Contribution to proceedings. [Abstract] [PDF]

  • R. Castello, A. Caudron, C. Delaere, T.A. du Pree, A. Mertens, November 24, 2014
    Private experimental note. [Full text]

  • Khachatryan, Vardan and others, October 7, 2014
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text]

  • CMS Collaboration, September 30, 2014
    Public experimental note. [Full text]

  • Barducci, D. and Belyaev, A. and Buchkremer, M. and Marrouche, J. and Moretti, S. and others, September 11, 2014
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Roberto Castello on behalf of CMS collaboration, July 4, 2014
    Contribution to proceedings. [Dial] [Full text]

  • Roberto Castello on behalf of CMS collaboration, July 4, 2014
    Contribution to proceedings. [Dial] [Full text]

  • Roberto Castello on behalf of CMS collaboration, July 4, 2014
    Contribution to proceedings. [Dial] [Full text]

  • Roberto Castello on behalf of CMS collaboration, July 4, 2014
    Contribution to proceedings. [Dial] [Full text]

  • Roberto Castello on behalf of CMS collaboration, July 4, 2014
    Contribution to proceedings. [Dial] [Full text]

  • CMS Collaboration, July 1, 2014
    Public experimental note. [Full text]

  • CMS Collaboration, July 1, 2014
    Public experimental note. [Abstract] [PDF]

  • CMS Collaboration, July 1, 2014
    Public experimental note. [Full text]

  • CMS Collaboration, July 1, 2014
    Public experimental note. [Full text]

  • CMS Collaboration, July 1, 2014
    Public experimental note. [Full text]

  • CMS Collaboration, July 1, 2014
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS Collaboration, July 1, 2014
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Chatrchyan, Serguei and others, July 1, 2014
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Marono, Miguel Vidal, June 19, 2014
    Contribution to proceedings. [Abstract] [PDF] [Dial] [Full text]

  • The CMS collaboration, June 19, 2014
    Refereed paper. [Dial] [Full text]

  • Miguel Vidal Maroño, June 19, 2014
    Contribution to proceedings. [Dial] [Full text]

  • Miguel Vidal Maroño, June 19, 2014
    Contribution to proceedings. [Dial] [Full text]

  • E. Boos, V. Bunichev, L. Dudko, N. Tsirova, A. Markina, M. Perfilov, A. Popov, I. Myagkov, I. Shvetsov, G. Vorotnikov, S. Bitioukov, D. Konstantinov, A. Giammanco, J. Hansen, J. Komaragiri, D. Martschei, Th. Muller, J. Ott, T. Peiffer, S. Rocker, J. Wagner-Kuhr, A. O. M. Iorio, M. Merola, L. Lista, A. Jafari, June 12, 2014
    Private experimental note. [Full text]

  • da Silveira, Gustavo G., June 11, 2014
    Contribution to proceedings. [Abstract] [PDF]

  • da Silveira, Gustavo G., June 11, 2014
    Contribution to proceedings. [Abstract] [PDF]

  • CMS Collaboration, June 9, 2014
    Public experimental note. [Full text]

  • Andrea Giammanco, June 9, 2014
    Contribution to proceedings. [Full text]

  • Andrea Giammanco, June 9, 2014
    Contribution to proceedings. [Full text]

  • T. Chwalek, A. Giammanco, M. Kadastik, M. Komm, D. Konstantinov, J. Pata, S. Rocker, A. Tiko, F. Roscher, J. Wagner-Kuhr, June 9, 2014
    Private experimental note. [Full text]

  • Abideh Jafari for the CMS Collaboration, June 7, 2014
    Contribution to proceedings. [Journal] [Full text]

  • A. Jafari, A. O. Iorio, J. D'Hondt, J. Wagner Kuhr, L. Lista, R. Gonzalez Suarez, A. Giammanco, June 7, 2014
    Private experimental note. [Full text]

  • A. Anuar, A. Bean, K. Bloom, C. Boeser, T. Chwalek, S. Fink, A. Giammanco, R. Gonzalez Suarez, D. Knowlton, J. Komaragiri, M. Komm, B. Maier, D. Noonan, A. Popov, J. Wagner-Kuhr, June 7, 2014
    Private experimental note. [Full text]

  • M. Buchkremer, May 4, 2014
    Refereed paper. Contribution to proceedings. [Abstract] [PDF]

  • Barducci, D. and Belyaev, A. and Buchkremer, M. and Cacciapaglia, G. and Deandrea, A. and others, May 4, 2014
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Chatrchyan, Serguei and others, February 10, 2014
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text]

  • Alwall, Johan and Duhr, Claude and Fuks, Benjamin and Mattelaer, Olivier and Ozturk, Deniz Gizem and others, February 3, 2014
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Chatrchyan, Serguei and others, January 18, 2014
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Forthomme, Laurent, January 8, 2014
    Contribution to proceedings. [Abstract] [PDF]

  • T. Chwalek, A. Giammanco, A. O. M. Iorio, M. Kadastik, M. Komm, D. Konstantinov, J. Pata, M. Piibeleht, A. Popov, L. Rebane, A. Remm, S. Roecker, A. Tiko, F. Roscher, J. Wagner-Kuhr, September 23, 2013
    Private experimental note. [Full text]

  • CMS Collaboration, September 23, 2013
    Public experimental note. [Full text]

  • The CMS Collaboration, August 26, 2013
    Public experimental note. [Full text]

  • A. Pin V. Lemaitre C. Beluffi J. Vizan , August 26, 2013
    Private experimental note. [Full text]

  • Tristan du Pree (for the CMS Collaboration), August 26, 2013
    Contribution to proceedings. [Full text]

  • The CMS Collaboration, August 26, 2013
    Public experimental note. [Full text]

  • Tristan du Pree, Roberto Castello, Ludivine Ceard, Anne-Marie Magnan, Andrew Gilbert, Christophe Delaere, Adrien Caudron, Jerome de Favereau, August 26, 2013
    Private experimental note. [Full text]

  • A. Descroix, T. du Pree, P. Van Mulders, G. Van Onsem, J. Vizan, August 26, 2013
    Private experimental note. [Full text]

  • Wolfgang Adam, J\'er\'emy Andrea, Camille Beluffi, Daniel Bloch, Adrien Caudron, Harry Cheung, Caroline Collard, Thomas Danielson, Alexis Descroix, Tristan du Pree, Juan Pablo Fernandez Ramos, Cristina Ferro, Alex Garabedian, Pablo Goldenzweig, Juan Pablo Gomez Cardona, Rebekka Hoing, Ketino Kaadze, James Keaveney, Dan Knowlton, Patricia Lobelle Pardo, Michael Maes, Sudhir Malik, Ivan Marchesini, Ernesto Migliore, Niklas Mohr, Marco Musich, Meenakshi Narain, Andrea Rizzi, Alexander Schmidt, Luca Scodellaro, Michael Segala, Pedro Silva, Thomas Speer, Alberto Traverso, Pierre Van Hove, Petra Van Mulders, Gerrit Van Onsem, Caterina Vernieri, Jesus Vizan, Roberval Walsh, Jinzhong Zhang, August 26, 2013
    Private experimental note. [Full text]

  • A.Pin, T. du Pree, R. Castello, J. Vizan C. Beluffi, A. Caudron, C. Delaere, V. Lemaitre, August 26, 2013
    Private experimental note. [Full text]

  • The CMS Collaboration, August 26, 2013
    Refereed paper. Public experimental note. [Abstract] [PDF] [Journal] [Dial]

  • Tristan du Pree (for the CMS Collaboration), August 26, 2013
    Contribution to proceedings. [Full text]

  • Wolfgang Adam, J\'er\'emy Andrea, Camille Beluffi, Daniel Bloch, Adrien Caudron, Harry Cheung, Caroline Collard, Thomas Danielson, Alexis Descroix, Tristan du Pree, Alberto Escalante, Dinko Ferencek, Juan Pablo Fernandez Ramos, Cristina Ferro, Alex Garabedian, Pablo Goldenzweig, Juan Pablo Gomez Cardona, Rebekka Hoing, Ketino Kaadze, James Keaveney, Dan Knowlton, Patricia Lobelle Pardo, Michael Maes, Sudhir Malik, Ivan Marchesini, Ernesto Migliore, Niklas Mohr, Marco Musich, Meenakshi Narain, Andrea Rizzi, Alexander Schmidt, Luca Scodellaro, Michael Segala, Pedro Silva, Thomas Speer, Alberto Traverso, Pierre Van Hove, Petra Van Mulders, Gerrit Van Onsem, Caterina Vernieri, Jesus Vizan, Roberval Walsh, Jinzhong Zhang, August 26, 2013
    Private experimental note. [Full text]

  • de Favereau, J. and others, July 25, 2013
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • David d'Enterria, Gustavo G. Da Silveira, May 31, 2013
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text]

  • CMS Collaboration, May 31, 2013
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text 1] [Full text 2]

  • CMS Collaboration, May 6, 2013
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS Collaboration, May 6, 2013
    Public experimental note. [Full text]

  • CMS Collaboration, May 6, 2013
    Public experimental note. [Full text]

  • CMS Collaboration, May 6, 2013
    Public experimental note. [Full text]

  • Artoisenet, Pierre and de Aquino, Priscila and Maltoni, Fabio and Mattelaer, Olivier, April 13, 2013
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS Collaboration, March 7, 2013
    Public experimental note. [Full text]

  • Andrea Giammanco, February 14, 2013
    Refereed paper. [Full text]

  • Oram Gedalia, Gino Isidori, Fabio Maltoni, Gilad Perez, Michele Selvaggi, Yotam Soreq, December 18, 2012
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • The CDF Collaboration, December 16, 2012
    [Abstract] [PDF] [Journal]

  • J. Freeman, T. Junk, M. Kirby, Y. Oksuzian, T. J. Phillips, F. D. Snider, M. Trovato, J. Vizan, W. M. Yao, December 11, 2012
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • The CDF Collaboration, December 6, 2012
    [Abstract] [PDF] [Journal]

  • The CDF Collaboration, December 6, 2012
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Rahmat Rahmat and Andrea Giammanco, September 28, 2012
    Contribution to proceedings. [Full text]

  • CMS Collaboration, September 28, 2012
    Public experimental note. [Full text]

  • CMS Collaboration, September 28, 2012
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS Collaboration, September 28, 2012
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • The CMS Collaboration, May 23, 2012
    Public experimental note. [Full text]

  • R. Castello, L. Ceard, C. Delaere, A. Pin, and T.A. du Pree , May 23, 2012
    Private experimental note. [Full text]

  • Degrande, C. and Gerard, J. M. and Grojean, C. and Maltoni, F. and Servant, G., May 8, 2012
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Chatrchyan, SergueiProg. Part. Nucl. Phys. and others, April 10, 2012
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text]

  • S. Podolsky, E. Cortina, N. Lurkin, April 5, 2012
    Contribution to proceedings. [Full text]

  • The CMS Collaboration, February 9, 2012
    Public experimental note. [Full text]

  • R. Castello, L. Ceard, C. Delaere, T.A. Du Pree, A. Gilbert, N.Heracleous, A.M. Magnan, February 9, 2012
    Private experimental note. [Full text]

  • R. Castello, L. Ceard, C. Delaere, T.A. du Pree, A. Gilbert, J. Hauk, N. Heracleous, A.-M. Magnan, E. Migliore, M. Musich, and A. Nikitenko, February 9, 2012
    Private experimental note. [Full text]

  • Tristan du Pree, Ludivine Ceard, Jerome de Favereau, Christophe Delaere, February 9, 2012
    Private experimental note. [Full text]

  • Giammanco, Andrea, January 24, 2012
    Contribution to proceedings. [Abstract] [PDF]

  • Lacker, H. and others, January 5, 2012
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS collaboration, September 28, 2011
    Public experimental note. [Full text]

  • The CMS Collaboration, June 30, 2011
    Public experimental note. [Full text]

  • Chatrchyan, Serguei and others, June 16, 2011
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • The CMS Collaboration, March 11, 2011
    Public experimental note. [Full text]

  • L. Ceard, J. de Favereau, C. Delaere and T. du Pree , March 11, 2011
    Private experimental note. [Full text]

  • S. Basegmez, G. Bruno, D. Pagano et al., February 9, 2011
    Private experimental note. [Full text]

  • The CMS Collaboration, February 8, 2011
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text]

  • The CMS Collaboration, February 8, 2011
    Public experimental note. [Full text]

  • The CMS Collaboration, February 8, 2011
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CERN NA62 collaboration: C. Lazzeroni et al., January 27, 2011
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • LHC Higgs Cross Section Working Group, January 3, 2011
    Refereed paper. [Abstract] [PDF] [Journal]

  • J. Caudron for the CMS Collaboration, December 31, 2010
    Contribution to proceedings. [Journal] [Full text]

  • A. Giammanco, December 31, 2010
    Contribution to proceedings. [Journal] [Full text]

  • A. Giammanco, December 31, 2010
    Contribution to proceedings. [Full text]

  • J. Caudron, A. Giammanco, A. Pin, V. Lemaitre, December 31, 2010
    Private experimental note. [Full text]

  • CMS collaboration, December 31, 2010
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • CMS collaboration, December 31, 2010
    Public experimental note. [Full text]

  • CMS collaboration, December 21, 2010
    Refereed paper. [Abstract] [PDF] [Journal] [Dial] [Full text]

  • Brambilla, N. and others, October 25, 2010
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Alwall, J. and Freitas, A. and Mattelaer, O., October 7, 2010
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • P. Azzurri, J. Caudron, D. Dobur, A. Hinzmann, T. Klimkovich, S. Lowette, July 29, 2010
    Private experimental note. [Full text]

  • J. Caudron, A. Giammanco, A. Hinzmann, T. Klimkovich, P. Azzurri, S. Lowette, D. Dobur, July 29, 2010
    Private experimental note. [Full text]

  • The CMS Collaboration, July 29, 2010
    Public experimental note. [Full text]

  • Nicolas Schul for the CMS Collaboration, July 1, 2010
    Contribution to proceedings. [Full text]

  • Luukka, P. and others, February 12, 2010
    Refereed paper. [Journal]

  • Richard D. Ball, Luigi Del Debbio, Stefano Forte, Alberto Guffanti, Jose I. Latorre, Juan Rojo and Maria Ubiali, December 15, 2009
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • De Roeck, A. and others, October 21, 2009
    Contribution to proceedings. [Abstract] [PDF] [Journal] [Dial]

  • J. de Favereau de Jeneret, V. Lemaitre, Y. Liu, S. Ovyn, T. Pierzchala, K. Piotrzkowski, X. Rouby, N. Schul and M. Vander Donckt, August 14, 2009
    Refereed paper. [Abstract] [PDF]

  • The CMS Collaboration, July 8, 2009
    Public experimental note. [Full text]

  • J. Caudron, A. Giammanco, V. Lemaitre, July 8, 2009
    Private experimental note. [Full text]

  • The CMS Collaboration, July 8, 2009
    Public experimental note. [Full text]

  • A. Giammanco, J. Weinelt, T. Mueller, J. Wagner-Kuhr, P. Sturm, W. Wagner, D. Konstantinov, V. Molchanov, A. Jafari, M. Mohammadi Najafabadi, E. Boos, L. Dudko, A. Markina, July 8, 2009
    Private experimental note. [Full text]

  • Loic Quertenmont, May 15, 2009
    Contribution to proceedings. [Full text]

  • Loic Quertenmont & Vincent Roberfroid, April 27, 2009
    Public experimental note. [Full text]

  • Simon de Visscher, Jean-Marc Gerard, Michel Herquet, Vincent Lemaitre, Fabio Maltoni, April 3, 2009
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • Eduardo Cortina Gil, February 17, 2009
    Contribution to proceedings. [Full text]

  • Loic Quertenmont, January 27, 2009
    Contribution to proceedings. [Full text]

  • Loic Quertenmont, Vincent Roberfroid, January 18, 2009
    [Full text]

  • Maria Hansen et al., December 22, 2008
    Private experimental note. [Full text]

  • Andrea Giammanco, December 9, 2008
    Contribution to proceedings. [Full text]

  • The CMS Collaboration, December 9, 2008
    Public experimental note. [Full text]

  • The CMS Collaboration, December 9, 2008
    Public experimental note. [Full text]

  • G. Bruno for the ATLAS and CMS Collaborations, December 9, 2008
    Contribution to proceedings. [Full text]

  • A. Giammanco, November 18, 2008
    Public experimental note. [Full text]

  • Loic Quertenmont, September 18, 2008
    Contribution to proceedings. [Full text]

  • X. Rouby, K. Piotrzkowski, July 18, 2008
    Private experimental note. [Full text]

  • K. Piotrzkowski, July 10, 2008
    Contribution to proceedings. [Abstract] [PDF] [Journal] [Dial]

  • Tomasz Pierzchala and Krzysztof Piotrzkowski, July 7, 2008
    Contribution to proceedings. [Abstract] [PDF] [Journal] [Dial]

  • S. Ovyn and J. de Favereau de Jeneret, June 29, 2008
    Contribution to proceedings. [Abstract] [PDF] [Journal] [Dial]

  • Rouby, X., June 28, 2008
    Contribution to proceedings. [Abstract] [PDF] [Journal] [Dial]

  • S. Ovyn on behalf of the CMS Collaboration, June 6, 2008
    Contribution to proceedings. [Full text]

  • S. Ovyn on behalf of the Louvain Photon group, June 6, 2008
    Contribution to proceedings. [Journal] [Full text]

  • S. Ovyn, June 6, 2008
    Contribution to proceedings. [Abstract] [PDF] [Journal] [Dial]

  • Nicolas Schul, Krzysztof Piotrzkowski, June 6, 2008
    Contribution to proceedings. [Abstract] [PDF] [Journal] [Dial]

  • Xavier Rouby, May 19, 2008
    Contribution to proceedings. [Abstract] [PDF]

  • S. Ovyn, X. Rouby, J.J. Hollar for the CMS Forward Physics Group, February 28, 2008
    Private experimental note. [Full text]

  • J.J. Hollar, S. Oyvn, X. Rouby for the CMS collaboration, February 26, 2008
    Public experimental note. [Full text]

  • J. de Favereau et al., January 28, 2008
    [Abstract] [PDF] [Full text]

  • V. Roberfroid, December 6, 2007
    Public experimental note. [Abstract] [PDF]

  • Pierzchala Tomasz, December 6, 2007
    Contribution to proceedings. [Full text]

  • J. Hollar, S. Ovyn, X. Rouby, October 22, 2007
    Private experimental note. [Full text]

  • Séverine Ovyn, October 15, 2007
    Contribution to proceedings. [Full text]

  • Dorian Kcira, October 10, 2007
    Contribution to proceedings. [Abstract] [PDF]

  • C.E.Gerber, P.Murat, T.M.P.Tait, D.Wackeroth, A.Arbuzov, D.Bardin, U.Baur, J.A.Benitez, S.Berge, S.Bondarenko, E.E.Boos, M.T.Bowen, R.Brock, V.E.Bunichev, J.Campbell, F.Canelli, Q.-H.Cao, C.M.Carloni Calame, F.Chevallier, P.Christova, C.Ciobanu, S.Dittmaier, L.V.Dudko, S.D.Ellis, A.I.Etienvre, F.Fiedler, A.Garcia-Bellido, A.Giammanco, D.Glenzinski, P.Golonka, C.Hays, S.Jadach, S.Jain, L.Kalinovskaya, M.Kramer, A.Lleres, J.Luck, A.Lucotte, A.Markina, G.Montagna, P.M.Nadolsky, O.Nicrosini, F.I.Olness, W.Placzek, R.Sadykov, V.I.Savrin, R.Schwienhorst, A.V.Sherstnev, S.Slabospitsky, B.Stelzer, M.J.Strassler, Z.Sullivan, F.Tramontano, A.Vicini, W.Wagner, Z.Was, G.Watts, M.Weber, S.Willenbrock, U.K.Yang, C-P.Yuan, J.Zhu, May 24, 2007
    Contribution to proceedings. [Abstract] [PDF]

  • A. Giammanco, A. Perrotta, March 19, 2007
    Contribution to proceedings. [Full text]

  • Alekhin, S. and others, January 2, 2006
    Contribution to proceedings. [Abstract] [PDF]

  • Alekhin, S. and others, January 2, 2006
    Contribution to proceedings. [Abstract] [PDF]

  • Th. Delbar, D. Favart, Gh. Grégoire, S. Kalinin and Chorus collaboration Report, January 5, 2006
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  • The CMS Collaboration, February 17, 2006
    Public experimental note. [Journal]

  • C. Delaere, V. Lemaitre, O. van der Aa, V. Roberfroid, January 28, 2006
    Public experimental note. [Full text]

  • S. Assouak, J. L. Bonnet, G. Bruno, J. Caudron, B. de Callatay, J. de Favereau de Jeneret, S. de Visscher, C. Delaere, P. Demin, D. Favart, E. Feltrin, E. Forton, G. Grégoire, S. Kalinin, D. Kcira, T. Keutgen, G. Leibenguth, V. Lemaitre, Y. Liu, D. Michotte, O. Militaru, A. Ninane, S. Ovyn, T. Pierzchala, K. Piotrzkowski, V. Roberfroid, X. Rouby, D. Teyssier, O. van der Aa, M. Vander Donckt and CMS Collaboration, December 25, 2006
    Refereed paper. [Journal]

  • G.L. Bayatian et al. (collaboration CMS), February 2, 2006
    Public experimental note.

  • Adam, W. and others, January 1, 2006
    Refereed paper. [Abstract] [PDF] [Journal] [Dial]

  • V. Lemaitre (collaboration CMS), March 1, 2006
    Refereed paper. [Journal]

  • Alekhin, S. and others, January 2, 2006
    Contribution to proceedings. [Abstract] [PDF]

  • A. Kayis-Topaksu et al. (collaboration CHORUS), October 20, 2005
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  • G. Onengut et al. (pour la collaboration Chorus), March 3, 2005
    Refereed paper. [Journal]

  • K. Piotrzkowski and ZEUS Collaboration, October 6, 2005
    Contribution to proceedings. [Journal]

  • K. Piotrzkowski, October 6, 2005
    Refereed paper. [Journal]

  • K. Piotrzkowski, October 6, 2005
    Contribution to proceedings. [Journal]

  • Kodolova, Olga and Bruno, G. and Vardanian, I. and Nikitenko, A. and Fano, L., March 22, 2005
    Refereed paper. [Journal]

  • Arcidiacono R, et al., July 1, 2005
    Refereed paper. [Journal]

  • W. Adam et al. - 404 authors, May 11, 2005
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  • CMS Collaboration, June 15, 2005
    Public experimental note. [Full text]

  • V. Lemaitre , June 15, 2005
    Public experimental note.

  • R. Brauer et al. , December 27, 2005
    Public experimental note.

  • F. Campabadal et al., December 14, 2005
    Public experimental note.

  • V. Lemaitre for the ALEPH, DELPHI, L3 and OPAL collaborations, February 27, 2005
    Public experimental note.

  • Brauer, R. and others, December 14, 2005
    Public experimental note. [Full text]

  • M.G. Albrow et al. , June 2, 2005
    Public experimental note.

  • S. Schael et al. (ALEPH Collaboration), May 12, 2005
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  • S. Schael et al. (ALEPH Collaboration), January 6, 2005
    Refereed paper. [Journal]