1/2014 - now: Research Specialist in Medium and High Energy Physics. ATLAS group, Institute of Physics, Academia Sinica, Taiwan.
07/2009 – 12/2013: Postdoctoral Research Scientist. ATLAS group, Institute of Physics, Academia Sinica, Taiwan.
05/2003 – 03/2009: Research Associate with the ATLAS and CDF groups, Department of Physics, University of Toronto, Canada.
09/1997 – 04/2003: Research Assistantship with the ATLAS group, University of Montreal. Canada.
05/1994 – 12/1996: Research Assistanship at Laboratoire de Physique des Hautes Energies (LPNHE), Ecole Polytechnique, Palaiseau, France.
10/1991 - 04/1994: Research and Teaching Assistanship at Universite Louis Pasteur and Centre de Recherches Nucleaires, Strasbourg, France.
09/1990 – 09/1991: D.E.A project: Study of the radiations damage and recovery of some materials used in Calorimetry (quartz, scintillators, polystyrene). Radiations effects and evolution in a controlled gas medium.
Publication
Journal Papers
[1] The ATLAS Collaboration, accepted, “Search for heavy resonances in the and final states using proton proton collisions at TeV with the ATLAS detector”, EUROPEAN PHYSICAL JOURNAL C. (SCIE) (IF: 4.59; SCI ranking: 27.6%)
[2] The ATLAS Collaboration, 2018, “Search for an invisibly decaying Higgs boson or dark matter candidates produced in association with a boson in collisions at 13 TeV with the ATLAS detector”, PHYSICS LETTERS B, 776, 318-337. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
[3] The ATLAS Collaboration, 2017, “Performance of algorithms that reconstruct missing transverse momentum in √s = 8 TeV proton--proton collisions in the ATLAS detector”, EUROPEAN PHYSICAL JOURNAL C, 77, 241-287. (SCIE) (IF: 4.59; SCI ranking: 27.6%)
[4] The ATLAS Collaboration, 2016, “Search for dark matter produced in association with a hadronically decaying vector boson in pp collisions at √s = 13 TeV with the ATLAS detector”, PHYSICS LETTERS B, 763, 251-268. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
[5] The ATLAS Collaboration, 2016, “Search for invisible decays of a Higgs boson using vector-boson fusion in collisions at √s = 8 TeV with the ATLAS detector”, JOURNAL OF HIGH ENERGY PHYSICS, 01, 172-216. (SCIE) (IF: 5.81; SCI ranking: 17.2%)
[6] The ATLAS Collaboration, 2015, “Constraints on new phenomena via Higgs boson couplings and invisible decays with the ATLAS detector”, JOURNAL OF HIGH ENERGY PHYSICS, 11, 206-258. (SCIE) (IF: 5.81; SCI ranking: 17.2%)
[7] The ATLAS Collaboration, 2015, “Search for invisible decays of the Higgs boson produced in association with a hadronically decaying vector boson in pp collisions at √s=8 TeV with the ATLAS detecto”, EUROPEAN PHYSICAL JOURNAL C, 75, 337-371. (SCIE) (IF: 4.59; SCI ranking: 27.6%)
[8] The ATLAS Collaboration, 2014, “Search for Invisible Decays of a Higgs Boson Produced in Association with a Z Boson in ATLAS”, PHYSICAL REVIEW LETTERS, 112, 201802-1-201802-19. (SCIE) (IF: 9.161; SCI ranking: 8.1%)
[9] The ATLAS Collaboration, 2013, “Evidence for the spin-0 nature of the Higgs boson using ATLAS data ”, PHYSICS LETTERS B, 726, 120-144. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
[10] The ATLAS Collaboration, 2013, “Measurements of Higgs production and couplings using diboson final states with the ATLAS detector at the LHC ”, PHYSICS LETTERS B, 726, 88-110. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
[11] The ATLAS Collaboration, 2013, “Search for dark matter candidates and large extra dimensions in events with a jet and missing transverse momentum with the ATLAS detector”, JOURNAL OF HIGH ENERGY PHYSICS, 04, 075-126. (SCIE) (IF: 5.81; SCI ranking: 17.2%)
[12] M. Doro, J. Conrad..., R. Mazini et al., 2013, “Dark matter and fundamental physics with the Cherenkov Telescope Array”, ASTROPARTICLE PHYSICS, 43, 189-214. (SCIE) (IF: 2.724; SCI ranking: 44.1%,44.8%)
[13] The ATLAS Collaboration, 2013, “A search for high-mass resonances decaying to τ+τ− in pp collisions at s√=7 TeV with the ATLAS detector”, PHYSICS LETTERS B, 719, 242-260. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
[14] The ATLAS Collaboration, 2012, “A particle consistent with the Higgs Boson observed with the ATLAS Detector at the Large Hadron Collider”, SCIENCE, 338, 1576-1582. (SCIE) (IF: 47.728; SCI ranking: 2.7%)
[15] The ATLAS Collaboration, 2012, “Search for the Higgs boson in the H→WW→ lnujj decay channel at √s=7 TeV with the ATLAS detector”, PHYSICS LETTERS B, 718, 391-410. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
[16] ATLAS Liquid Argon Collaboration, 2012, “Evaluation of the local hadronic calibration with combined beam-test data for the endcap and forward calorimeters of ATLAS in the pseudorapidity region 2.5 < |eta| < 4.0.”, NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 693, 74-97. (SCIE) (IF: 1.455; SCI ranking: 75%,73.7%,50%,75.9%)
[17] The ATLAS Collaboration, 2012, “Observation of a new particle in the search for the Standard Model Higgs boson with the ATLAS detector at the LHC”, PHYSICS LETTERS B, 716, 1-29. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
[18] The ATLAS Collaboration, 2012, “Search for the Standard Model Higgs boson in the H → τ+τ− decay mode in √s=7 TeV pp collisions with ATLAS”, JOURNAL OF HIGH ENERGY PHYSICS, 09, 070-120. (SCIE) (IF: 5.81; SCI ranking: 17.2%)
[19] The ATLAS Collaboration, 2012, “Search for the Standard Model Higgs boson in the H→ WW(*) →ℓνℓν decay mode with 4.7 /fb of ATLAS data at √s=7 TeV.”, PHYSICS LETTERS B, 716, 62-81. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
[20] The ATLAS Collaboration, 2012, “Combined search for the Standard Model Higgs boson in pp collisions at √s = 7 TeV with the ATLAS detector”, PHYSICAL REVIEW D, 86, 032003-1-032003-31. (SCIE) (IF: 5.296; SCI ranking: 22.1%,20.7%)
[21] The ATLAS Collaboration, 2012, “Measurement of τ polarization in W−>τν decays with the ATLAS detector in pp collisions at sqrt(s) = 7 TeV.”, EUROPEAN PHYSICAL JOURNAL C, 72, 2062-2083. (SCIE) (IF: 4.59; SCI ranking: 27.6%)
[22] The ATLAS Collaboration, 2012, “Combined search for the Standard Model Higgs boson using up to 4.9 fb-1 of pp collision data at √s = 7 TeV with the ATLAS detector at the LHC”, PHYSICS LETTERS B, 710, 49-66. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
[23] The ATLAS Collaboration, 2012, “Search for the Higgs boson in the H → WW(*) → l nu l nu decay channel in pp collisions at √s = 7 TeV with the ATLAS detector”, PHYSICAL REVIEW LETTERS, 108, 111802-1-111802-19. (SCIE) (IF: 9.161; SCI ranking: 8.1%)
[24] The ATLAS Collaboration, 2012, “ Measurement of the W->tau nu Production Cross Section in pp Collisions at √s=7 TeV with the ATLAS Experiment”, PHYSICS LETTERS B, 706, 276-294. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
[25] The ATLAS Collaboration, 2012, “Performance of Missing Transverse Momentum Reconstruction in Proton-Proton Collisions at 7 TeV with ATLAS”, EUROPEAN PHYSICAL JOURNAL C, 72, 1844-1879. (SCIE) (IF: 4.59; SCI ranking: 27.6%)
[26] The ATLAS Collaboration, 2011, “Measurement of the Z->tautau Cross-Section with the ATLAS detector”, PHYSICAL REVIEW D, 84, 112006. (SCIE) (IF: 5.296; SCI ranking: 22.1%,20.7%)
[27] The ATLAS Collaboration, 2011, “Limits on the production of the Standard Model Higgs Boson in pp collisions at √s =7 TeV with the ATLAS detector ”, EUROPEAN PHYSICAL JOURNAL C, 71, 1728. (SCIE) (IF: 4.59; SCI ranking: 27.6%)
[28] The ATLAS Collaboration, 2010, “Measurement of the W -> lnu and Z/gamma* -> ll production cross sections in proton-proton collisions at sqrt(s) = 7 TeV with the ATLAS detector”, JOURNAL OF HIGH ENERGY PHYSICS, 12, 060. (SCIE) (IF: 5.81; SCI ranking: 17.2%)
[29] The ATLAS Collaboration, 2010, “Charged-particle multiplicities in pp interactions at (s)=900GeV measured with the ATLAS detector at the LHC”, PHYSICS LETTERS B, 688, 21-42.. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
[30] The ATLAS Collaboration, 2010, “Performance of the ATLAS Detector using First Collision Data”, JOURNAL OF HIGH ENERGY PHYSICS, 09, 056. (SCIE) (IF: 5.81; SCI ranking: 17.2%)
[31] The ATLAS Collaboration, 2010, “Readiness of the ATLAS Liquid Argon Calorimeter for LHC Collisions”, EUROPEAN PHYSICAL JOURNAL C, 70, 723-753. (SCIE) (IF: 4.59; SCI ranking: 27.6%)
[32] J. Pinfold, R. Mazini et al. , 2008, “ Performance of the ATLAS liquid argon endcap calorimeter in the pseudorapidity region 2.5<|eta|<4.0 in beam tests”, NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 593 (3), 324-342. (SCIE) (IF: 1.455; SCI ranking: 75%,73.7%,50%,75.9%)
[33] The ATLAS Collaboration, 2008, “The ATLAS Experiment at the CERN Large Hadton Collider”, Journal of Instrumentation, 3, S08003. (SCIE) (IF: 1.415; SCI ranking: 78.1%)
[34] CDF Collaboration, 2007, “Measurements of Inclusive W and Z Cross Sections in p-pbar Collisions at sqrt{s} =1.96 TeV”, JOURNAL OF PHYSICS G-NUCLEAR AND PARTICLE PHYSICS, 34, 2457–2544. (SCIE) (IF: 3.045; SCI ranking: 31.6%,34.5%)
[35] CDF Collaboration, 2007, “• Search for New Particles Leading to Z+jets Final States in Collisions at TeV”, PHYSICAL REVIEW D, 76, 072006. (SCIE) (IF: 5.296; SCI ranking: 22.1%,20.7%)
[36] Gingrich D. M., Mazini R. et al. , 2007, “Construction, assembly and testing of the ATLAS hadronic end-cap calorimeter”, Journal of Instrumentation, 2, P05005-P05010. (SCIE) (IF: 1.415; SCI ranking: 78.1%)
[37] Armitage J.C., Mazini R. et al. , 2007, “Electron signals in the Forward Calorimeter prototype for ATLAS”, Journal of Instrumentation, 2, P11001-P11007. (SCIE) (IF: 1.415; SCI ranking: 78.1%)
[38] CDF Collaboration, 2007, “Search for Anomalous Production of Multilepton Events in p-pbar Collisions at = 1.96 TeV”, PHYSICAL REVIEW LETTERS, 98, 131804. (SCIE) (IF: 9.161; SCI ranking: 8.1%)
[39] CDF Collaboration, 2006, “Search for Large Extra Dimensions in the Production of Jets and Missing Transverse Energy in Collisions at = 1.96 TeV”, PHYSICAL REVIEW LETTERS, 97, 171802. (SCIE) (IF: 9.161; SCI ranking: 8.1%)
[40] CDF Collaboration, 2006, “Top Quark Mass Measurement from Dilepton Events at CDF II”, PHYSICAL REVIEW LETTERS, 96, 152002. (SCIE) (IF: 9.161; SCI ranking: 8.1%)
[41] Asai S,, Mazini R. et al., 2004, “Prospects for the Search of a Standard Model Higgs Boson in ATLAS using Vector Boson Fusion”, EUROPEAN PHYSICAL JOURNAL C, 32 , s19-s54. (SCIE) (IF: 4.59; SCI ranking: 27.6%)
[42] Dowler B., Mazini R. et al. , 2002, “Performance of the ATLAS Hadronic End-Cap Calorimeter in Beam Tests”, NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 482, 94-124. (SCIE) (IF: 1.455; SCI ranking: 75%,73.7%,50%,75.9%)
[43] NA50 Collaboration, 1998, “phi, rho, and omega production in collisions induced by deuteron and heavy ions around 200 GeV per nucleon”, NUCLEAR PHYSICS A, 638, 483c-486c. (SCIE) (IF: 1.683; SCI ranking: 63.2%)
[44] NA38 Collaboration, 1996, “ Muon pair and vector meson cross-sections in p-W and S-U collisions at 200 GeV/nucleon”, PHYSICS LETTERS B, 368(3), 230-238. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
[45] NA38 Collaboration, 1996, “ Production of ϱ + ω and Φ in p-W and S-U collisions at 200 GeV/nucleon”, PHYSICS LETTERS B, 368(3,1), 239-243. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
[46] NA38 Collaboration, 1995, “ The evolution of cross section ratio ψ′/J/ψ from p-A to S-U interactions. Direct photon emission in correlation with φ and Jψ”, NUCLEAR PHYSICS A, 590(1-2), 117-126. (SCIE) (IF: 1.683; SCI ranking: 63.2%)
[47] NA38 Collaboration, 1995, “ Ψ′ and J/Ψ production in p-W, p-U and S-U interactions at 200 GeV/nucleon”, PHYSICS LETTERS B, 345(4), 617-621. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
[48] NA38 Collaboration, 1995, “Psi' and J/Psi production in p-U and S-U collisions at 200 GeV/Nucleon”, PHYSICS LETTERS B, 345, 617-621. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
[49] NA38 Collaboration, 1994, “ Jψ, ψ′ and muon pair production in p-W and S-U collisions”, NUCLEAR PHYSICS A, 566, 77-85. (SCIE) (IF: 1.683; SCI ranking: 63.2%)
[50] NA51 Collaboration, 1994, “Study of Isospin symmetry breaking in the light quark sea of the nucleon from the Drell-Yan process”, PHYSICS LETTERS B, 332, 244-250. (SCIE) (IF: 4.771; SCI ranking: 26.5%,21.1%,24.1%)
Conference Papers
[1] Rachid Mazini for the ATLAS COllaboration, 2010, “• Search for dark matter candidates with the ATLAS detector at the LHC”, 26 pages, paper presented at Physics Beyond the Standard Models of Particles, Cosmology and Astrophysics, Cape Town, South Africa: H.V. Klapdor-Kleingrothaus, 2010-02-01 ~ 2010-02-06.
[2] Rachid Mazini, Peter Loch, 2000, “• Comparison of experimental electron signals with GEANT3 and GEANT4 simulations from the ATLAS Forward Calorimeter Prototype”, 7 pages, paper presented at IX International Conference on Calorimetry in High Energy Physics, Annecy, France: J. Colas, P. Nédélec, Calogero Natoli, 2000-10-09 ~ 2000-10-14.
[3] G. Azuelos, R.Mazini and al., 1999, “Electroweak Physics”, 114 pages, paper presented at Workshop on Standard Model Physics (and more), Geneva, Switzerland: G. Altarelli, M. L. Mangano, CERN, 1999-05-25 ~ 1999-05-26.