CERN — The European Organization for Nuclear Research
暂无分享,去创建一个
E. Fuchs | R. N. Mohapatra | G. Panico | M. Reece | F. Sala | M. Spannowsky | A. Thamm | A. Wulzer | M. Kucharczyk | J. Baglio | L. Di Luzio | S. Di Vita | C. Grojean | M. Muhlleitner | M. Riembau | T. Robens | P. Roloff | U. Schnoor | T. Vantalon | A. Robson | J. Reuter | F. Riva | A. Winter | A. Tesi | N. Craig | A. Sailer | J. de Blas | R. Franceschini | J. D. Wells | J. Zupan | S. Alipour-Fard | W. Altmannshofer | A. Azatov | D. Azevedo | M. Bauer | F. Bishara | J.-J. Blaising | S. Brass | D. Buttazzo | Z. Chacko | Y. Cui | D. Dercks | P.S.Bhupal Dev | G. Durieux | J. Fan | P. Ferreira | C. Frugiuele | I. Garc'ia | M. Ghezzi | A. Greljo | R. Grober | J. Gu | R. Hunter | A. Joglekar | J. Kalinowski | W. Kilian | C. Kilic | W. Kotlarski | E. Leogrande | L. Linssen | D. Liu | Z. Liu | D. M. Lombardo | I. Low | O. Matsedonskyi | D. Marzocca | K. Mimasu | A. Mitov | M. Mitra | G. Moortgat-Pick | S. Najjari | M. Nardecchia | M. Neubert | J. M. No | L. Panizzi | A. Paul | M. Perell'o | G. Perez | A. D. Plascencia | G. M. Pruna | D. Redigolo | K. Rolbiecki | K. Sakurai | R. Santos | M. Schlaffer | S. Y. Shim | B. Shuve | R. Simoniello | D. Sokolowska | R. Strom | T. M. P. Tait | N. van der Kolk | C. B. Verhaaren | M. Vos | N. Watson | C. Weiland | J. Wittbrodt | T. Wojton | B. Xu | Z. Yin | A. F. .Zarnecki | C. Zhang | Y. Zhang | R. Corsini
[1] John B. Shoven,et al. I , Edinburgh Medical and Surgical Journal.
[2] G. G. Stokes. "J." , 1890, The New Yale Book of Quotations.
[3] Gebräuchliche Fertigarzneimittel,et al. V , 1893, Therapielexikon Neurologie.
[4] R. Peierls,et al. The “Neutrino” , 1934, Nature.
[5] E. V. A.. Lehrbuch der Hochfrequenztechnik , 1937, Nature.
[6] B. Pontecorvo. Inverse beta process , 1946 .
[7] F. B. Harrison,et al. Detection of the Free Neutrino: a Confirmation. , 1956, Science.
[8] K. Goulianos,et al. Observation of High-Energy Neutrino Reactions and the Existence of Two Kinds of Neutrinos , 1962 .
[9] Z. Maki,et al. Remarks on the unified model of elementary particles , 1962 .
[10] L. Laslett,et al. TRANSVERSE RESISTIVE INSTABILITIES OF INTENSE COASTING BEAMS IN PARTICLE ACCELERATORS , 1965 .
[11] B. Pontecorvo. Neutrino Experiments and the Problem of Conservation of Leptonic Charge , 1967 .
[12] H. Bethe. Energy production in stars. , 1968, Science.
[13] S. V. D. Meer,et al. Calibration of the Effective Beam Height in the ISR , 1968 .
[14] H. Miettinen. S-CHANNEL PHENOMENOLOGY OF DIFFRACTION SCATTERING , 1973 .
[15] U. Amaldi. Proton Interactions at High Energies , 1973 .
[16] U. Amaldi. ELASTIC SCATTERING AND LOW MULTIPLICITIES , 1973 .
[17] E. Williams,et al. Investigation by techniques of electron stimulated desorption of the merits of grow discharge cleaning of the surfaces of vacuum chambers at the CERN intersecting storage rings , 1973 .
[18] A. Salam,et al. Lepton Number as the Fourth Color , 1974 .
[19] Miss A.O. Penney. (b) , 1974, The New Yale Book of Quotations.
[20] L. Jones,et al. Measurement of the p--p total cross section at 200 and 300 GeV/c , 1974 .
[21] Roman Jackiw,et al. Symmetry Behavior at Finite Temperature , 1974 .
[22] P. Bryant,et al. On-line correction of the incoherent tune shifts due to space charge , 1975 .
[23] N. K. Nielsen,et al. On the Gauge Dependence of Spontaneous Symmetry Breaking in Gauge Theories , 1975 .
[24] R. Mohapatra,et al. "Natural" left-right symmetry , 1975 .
[25] R. Mohapatra,et al. Left-Right Gauge Symmetry and an Isoconjugate Model of CP Violation , 1975 .
[26] G. Senjanovic,et al. Exact Left-Right Symmetry and Spontaneous Violation of Parity , 1975 .
[27] U. Amaldi,et al. Diffraction of Hadronic Waves , 1976 .
[28] G. Jarlskog. Laws of hadronic matter , 1976 .
[29] E. Paschos,et al. Diagonal Neutral Currents , 1977 .
[30] A. Baroncelli,et al. The real part of the forward proton proton scattering amplitude measured at the CERN intersecting storage rings , 1977 .
[31] P. Minkowski. μ→eγ at a rate of one out of 109 muon decays? , 1977 .
[32] Steven Weinberg,et al. Natural conservation laws for neutral currents , 1977 .
[33] W. Kummer,et al. Nonconservation of total lepton number with scalar bosons , 1977 .
[34] F. Wilczek. Problem of Strong $P$ and $T$ Invariance in the Presence of Instantons , 1978 .
[35] S. Weinberg. A new light boson , 1978 .
[36] Ernest Ma,et al. Pattern of Symmetry Breaking with Two Higgs Doublets , 1978 .
[37] M. Gell-Mann,et al. Complex spinors and unified theories , 2013, 1306.4669.
[38] T. Yanagida,et al. Horizontal Symmetry and Masses of Neutrinos , 1980 .
[39] P. Bryant. The Revised Skew Quadrupole System for Coupling Compensation in the CERN Intersecting Storage Rings (ISR) , 1979, IEEE Transactions on Nuclear Science.
[40] S. Glashow,et al. The Future of Elementary Particle Physics , 1979 .
[41] A. Zee,et al. A Theory of Lepton Number Violation, Neutrino Majorana Mass, and Oscillation , 1980 .
[42] C. Wetterich,et al. Neutrino Mass Problem and Gauge Hierarchy , 1980 .
[43] E. Fromm,et al. Gases and carbon in metals , 1980 .
[44] José W. F. Valle,et al. Neutrino masses in SU(2) ⊗ U(1) theories , 1980 .
[45] C. Wetterich,et al. Proton Lifetime and Fermion Masses in an SO(10) Model , 1981 .
[46] C. Wetterich. Neutrino masses and the scale of B-L violation , 1981 .
[47] L. Vos. Automated Injection Procedure for the CERN Intersecting Storage Rings (ISR) , 1981, IEEE Transactions on Nuclear Science.
[48] G. Senjanovic,et al. Neutrino Masses and Mixings in Gauge Models with Spontaneous Parity Violation , 1981 .
[49] K. Schulze. Preparation and Characterization of Ultra-High-Purity Niobium , 1981 .
[50] R. Mohapatra,et al. New Contribution to Neutrinoless Double Beta Decay in Gauge Models , 1981 .
[51] G. Goggi,et al. Diffraction of subnuclear waves , 1981 .
[52] Thomas G. Rizzo,et al. Doubly Charged Higgs Bosons and Lepton Number Violating Processes , 1982 .
[53] R. Mohapatra,et al. The neutrino as the supersymmetric partner of the majoron , 1982 .
[54] W. Keung,et al. Majorana neutrinos and the production of the right-handed charged gauge boson , 1983 .
[55] Estia Eichten,et al. New Tests for Quark and Lepton Substructure , 1983 .
[56] Stuart Raby,et al. Fermion masses and induction of the weak scale by supergravity , 1983 .
[57] K. Goulianos. Diffractive interactions of hadrons at high energies , 1983 .
[58] R. N. Mohapatra,et al. Decoupling Parity and SU(2)-R Breaking Scales: A New Approach to Left-Right Symmetric Models , 1984 .
[59] Howard Georgi,et al. SU(2) × U(1) breaking by vacuum misalignment , 1984 .
[60] Savas Dimopoulos,et al. Composite Higgs scalars , 1984 .
[61] Howard Georgi,et al. Calculation of the Composite Higgs Mass , 1984 .
[62] L. Evans. The beam-beam interaction , 1984 .
[63] L. Okun. VIOLATION OF CP INVARIANCE. , 1984 .
[64] L. Hall,et al. Explicit R-Parity Breaking in Supersymmetric Models , 1984 .
[65] José W. F. Valle,et al. Supersymmetric models without R parity , 1985 .
[66] Howard Georgi,et al. Anatomy of a composite Higgs model , 1985 .
[67] A. Zee. Charged scalar field and quantum number violations , 1985 .
[68] Howard E. Haber,et al. The Search for Supersymmetry: Probing Physics Beyond the Standard Model , 1985 .
[69] V. Kuzmin,et al. On the Anomalous Electroweak Baryon Number Nonconservation in the Early Universe , 1985 .
[70] Wilhelm Bertl,et al. Search for the decay + ? e+e+e- , 1985 .
[71] Howard Georgi,et al. Manifesting the invisible axion at low energies , 1986 .
[72] J. Valle,et al. Neutrino mass and baryon-number nonconservation in superstring models. , 1986, Physical review. D, Particles and fields.
[73] Chandra Raju,et al. Fermion masses , 1986 .
[74] S. Mikheyev,et al. Resonance Amplification of Oscillations in Matter and Spectroscopy of Solar Neutrinos , 1986 .
[75] A. Zee,et al. Quantum numbers of Majorana neutrino masses , 1986 .
[76] M. Fukugita,et al. Baryogenesis without grand unification , 1986 .
[77] D. Wyler,et al. Effective lagrangian analysis of new interactions and flavour conservation , 1986 .
[78] Kaoru Hagiwara,et al. Probing the weak boson sector in e + e - →W + W - , 1987 .
[79] Howard Georgi,et al. Composite-technicolor standard model , 1987 .
[80] K. Babu,et al. Model of 'Calculable' Majorana Neutrino Masses , 1988 .
[81] M. Lusignoli,et al. EXOTIC HIGGS PRODUCTION AT E+ E- COLLIDERS , 1989 .
[82] T. Kuo,et al. Neutrino Oscillations in Matter , 1989 .
[83] G. Branco,et al. The seesaw mechanism in the presence of a conserved lepton number , 1989 .
[84] G. C. Joshi,et al. See-saw neutrino masses induced by a triplet of leptons , 1989 .
[85] Ulrich L. Rohde,et al. Microwave Circuit Design Using Linear and Nonlinear Techniques: Vendelin/Microwave Circuit Design Using Linear and Nonlinear Techniques , 1990 .
[86] Valery I. Telnov,et al. Problems in obtaining γγ and γe colliding beams at linear colliders , 1990 .
[87] R. Barbieri,et al. Bounds on sterile neutrinos from nucleosynthesis , 1990 .
[88] Stanislaw Jadach,et al. YFS2— The second-order Monte Carlo program for fermion pair production at LEP/SLC, with the initial state radiation of two hard and multiple soft photons , 1990 .
[89] K. Kainulainen. Light singlet neutrinos and the primordial nucleosynthesis , 1990 .
[90] Yasuhiro Okada,et al. Upper bound of the lightest Higgs boson mass in the minimal supersymmetric standard model , 1991 .
[91] H. Haber,et al. Can the mass of the lightest Higgs boson of the minimal supersymmetric model be larger than mZ? , 1991, Physical review letters.
[92] Maciej Skrzypek,et al. Exact and approximate solutions for the electron nonsinglet structure function in QED , 1991 .
[93] David B. Kaplan,et al. Flavor at SSC energies: A New mechanism for dynamically generated fermion masses , 1991 .
[94] Robert Foot,et al. A model with fundamental improper spacetime symmetries , 1991 .
[95] D. Seckel,et al. Three exceptions in the calculation of relic abundances. , 1991, Physical review. D, Particles and fields.
[96] Giovanni Ridolfi,et al. Radiative corrections to the masses of supersymmetric Higgs bosons , 1991 .
[97] Takeuchi,et al. Estimation of oblique electroweak corrections. , 1992, Physical review. D, Particles and fields.
[98] Soni,et al. Analysis for magnetic moment and electric dipole moment form factors of the top quark via e+e--->tt-bar. , 1992, Physical review. D, Particles and fields.
[99] Robert Foot,et al. POSSIBLE CONSEQUENCES OF PARITY CONSERVATION , 1992 .
[100] Apostolos Pilaftsis,et al. Lepton flavour nonconservation in H0 decays , 1992 .
[101] A. Seryi,et al. Investigations of power and spatial correlation characteristics of seismic vibrations in the CERN LEP tunnel for linear collider studies , 1993 .
[102] M. Seymour,et al. Longitudinally-invariant k ⊥ -clustering algorithms for hadron-hadron collisions , 1993 .
[103] Emidio Gabrielli,et al. Supersymmetric corrections to epsilon prime / epsilon at the leading order in QCD and QED , 1994 .
[104] Nathan Seiberg,et al. Mass matrix models: The Sequel , 1994 .
[105] M. Diehl,et al. Optimal observables for the measurement of three gauge boson couplings ine+e−→W+W− , 1994 .
[106] Sterile neutrinos as dark matter. , 1993, Physical review letters.
[107] G. Hooft. Symmetry Breaking Through Bell-Jackiw Anomalies , 1976 .
[108] G. Azuelos,et al. New fermions at e+e− colliders II. Signals and backgrounds , 1993, hep-ph/9308340.
[109] R. J. Crewther,et al. Introduction to quantum field theory , 1995, hep-th/9505152.
[110] Yosef Nir,et al. Lepton mass matrix models , 1995 .
[111] Burke,et al. Focusing of submicron beams for TeV-scale e+e- linear colliders. , 1995, Physical review letters.
[112] M. Carena,et al. Analytical expressions for radiatively corrected Higgs masses and couplings in the MSSM , 1995 .
[113] M. Ono,et al. Status of The Seamless L-band Cavity Fabrication at KEK , 1995 .
[114] J. Espinosa,et al. The lightest Higgs boson mass in the Minimal Supersymmetric Standard Model , 1995 .
[115] U. Heinz,et al. Rapidity dependence of strange particle ratios in nuclear collisions , 1995 .
[116] Terry Elliott,et al. The Next-To -Minimal Supersymmetric Standard Model , 1995 .
[117] J. A. Casas,et al. Strong constraints on the parameter space of the MSSM from charge and color breaking minima , 1996 .
[118] L. Gosset,et al. GALLEX solar neutrino observations: Results for GALLEX IV , 1996 .
[119] Ashok Das,et al. A two Higgs doublet model for the top quark , 1995, hep-ph/9511329.
[120] Inoue,et al. Solar Neutrino Data Covering Solar Cycle 22. , 1996, Physical review letters.
[121] Dmitry Teytelman,et al. Observation, control, and modal analysis of longitudinal coupled-bunch instabilities in the ALS via a digital feedback system , 1996 .
[122] Hayes,et al. Review of Particle Physics. , 1996, Physical review. D, Particles and fields.
[123] A. Bartl,et al. SUSY-QCD corrections to scalar quark pair production in e+e− annihilation , 1996 .
[124] Daum,et al. Upper limit of the muon-neutrino mass and charged-pion mass from momentum analysis of a surface muon beam. , 1996, Physical review. D, Particles and fields.
[125] O. Scholten,et al. Correlations and Clustering Phenomena in Subatomic Physics , 1997 .
[126] M. Raidal,et al. Constraints on doubly charged Higgs interactions at linear collider , 1997 .
[127] Time Domain Measurements using Vector Network Analyzer , 1998 .
[128] C. K. Lee,et al. Measurement of the Solar Electron Neutrino Flux with the Homestake Chlorine Detector , 1998 .
[129] A. Sakharov. Violation of Cp-Invariance C-Asymmetry and Baryon Asymmetry of the Universe , 1998 .
[130] J. Kalinowski,et al. HDECAY: a program for Higgs boson decays in the Standard Model and its supersymmetric extension , 1997, hep-ph/9704448.
[131] H. Hindi,et al. CALCULATION OF IMPEDANCE FROM MULTIBUNCH SYNCHRONOUS PHASES : THEORY AND EXPERIMENTAL RESULTS , 1998 .
[132] T. Teubner,et al. Top quark pair production at threshold: Complete next-to-next-to-leading order relativistic corrections , 1998, hep-ph/9801397.
[133] James D. Wells,et al. Phenomenology of Massive Vectorlike Doublet Leptons , 1998 .
[134] F. Vissani. Do experiments suggest a hierarchy problem , 1997, hep-ph/9709409.
[135] Hitoshi Murayama,et al. Gaugino mass without singlets , 1998 .
[136] E. Ma. Pathways to naturally small neutrino masses , 1998, hep-ph/9805219.
[137] V. Rubakov,et al. Baryogenesis via neutrino oscillations , 1998, hep-ph/9803255.
[138] The Super-Kamiokande Collaboration,et al. Evidence for oscillation of atmospheric neutrinos , 1998, hep-ex/9807003.
[139] Aleph collaboration,et al. An upper limit on the $\tau$ neutrino mass from three- and five-prong tau decays , 1998 .
[140] W. Bernreuther. CP violation , 1998 .
[141] Mark Trodden. Electroweak Baryogenesis , 1998 .
[142] S. Heinemeyer,et al. The masses of the neutral ${\cal CP}$-even Higgs bosons in the MSSM: Accurate analysis at the two-loop level , 1998, hep-ph/9812472.
[143] S. Kraml. Stop and Sbottom Phenomenology in the MSSM , 1999 .
[144] Lisa Randall,et al. Out of this world supersymmetry breaking , 1999 .
[145] Minoru Yoshida,et al. Measurement of the Solar Neutrino Energy Spectrum Using Neutrino-Electron Scattering , 1999 .
[146] G. Fuller,et al. New Dark Matter Candidate: Nonthermal Sterile Neutrinos , 1998, astro-ph/9810076.
[147] L. Randall,et al. A Large mass hierarchy from a small extra dimension , 1999, hep-ph/9905221.
[148] A. Ali. Profiles of the Unitarity Triangle and CP-Violating Phases in the Standard Model and Supersymmetric Theories , 1999 .
[149] Investigation of the Mobius accelerator at CESR , 1999, Proceedings of the 1999 Particle Accelerator Conference (Cat. No.99CH36366).
[150] John D Fox,et al. Multi-Bunch Instability Diagnostics via Digital Feedback Systems at PEP-II, DAFNE, ALS and SPEAR , 1999 .
[151] T. Junk. Confidence Level Computation for Combining Searches with Small Statistics , 1999, hep-ex/9902006.
[152] A. Sopczak,et al. Study of Scalar Top Quarks at a Future e+e- Linear Collider , 1999 .
[153] P. W. Hawkes,et al. Modern map methods in particle beam physics , 1999 .
[154] M. B. Gavela,et al. Golden measurements at a neutrino factory , 2000, hep-ph/0002108.
[155] S. Heinemeyer,et al. Reconciling the two loop diagrammatic and effective field theory computations of the mass of the lightest CP - even Higgs boson in the MSSM , 2000 .
[156] Nan Phinney. SLC final performance and lessons , 2000 .
[157] WA98 Collaboration , 2000 .
[158] I. Reichel,et al. Transverse beam tails due to inelastic scattering , 2000 .
[159] S. Kraml,et al. Phenomenology of Stops, Sbottoms, τ-Sneutrinos, and Staus at an e+e− Linear Collider , 2000 .
[160] Zenro Hioki,et al. Optimal-Observable Analysis of the Angular and Energy Distributions for Top-Quark Decay Products at Polarized Linear Colliders , 2000, hep-ph/0004223.
[161] Thomas de Quincey. [C] , 2000, The Works of Thomas De Quincey, Vol. 1: Writings, 1799–1820.
[162] A. Pomarol,et al. Bulk fields and supersymmetry in a slice of AdS , 2000 .
[163] G. Matthiae. Diffractive physics at the LHC , 2000 .
[164] S. Heinemeyer,et al. FeynHiggs: A Program for the calculation of the masses of the neutral CP even Higgs bosons in the MSSM , 2000 .
[165] Andrea Neviani,et al. The APV25 0.25 /spl mu/m CMOS readout chip for the CMS tracker , 2000, 2000 IEEE Nuclear Science Symposium. Conference Record (Cat. No.00CH37149).
[166] B. Blue,et al. E-157: A 1.4-m-long plasma wake field acceleration experiment using a 30 GeV electron beam from the Stanford Linear Accelerator Center Linac , 2000 .
[167] M. Kalelkar. Light quark fragmentation in polarized Z0 decays at SLD , 2001 .
[168] R. Turchetta,et al. CMOS Sensors for the detection of Minimum Ionising Particles , 2001 .
[169] W. C. Louis,et al. Evidence for neutrino oscillations from the observation of anti-neutrino(electron) appearance in a anti-neutrino(muon) beam , 2001 .
[170] A. Seryi,et al. Novel final focus design for future linear colliders. , 2001, Physical review letters.
[171] D. Teytelman,et al. Frequency resolved measurement of longitudinal impedances using transient beam diagnostics , 2001, PACS2001. Proceedings of the 2001 Particle Accelerator Conference (Cat. No.01CH37268).
[172] F. Decker,et al. Observation of plasma focusing of a 28.5 GeV positron beam. , 2001, Physical review letters.
[173] F. Zimmermann,et al. The crossing angle in CLIC , 2001, PACS2001. Proceedings of the 2001 Particle Accelerator Conference (Cat. No.01CH37268).
[174] M. Schmitt,et al. Higgs physics with a $\gamma \gamma$ collider based on CLIC 1 , 2001, hep-ex/0111056.
[175] John N. Bahcall,et al. Solar Models: Current Epoch and Time Dependences, Neutrinos, and Helioseismological Properties , 2001 .
[176] Andrea Neviani,et al. Design and results from the APV25, a deep sub-micron CMOS front-end chip for the CMS tracker , 2001 .
[177] Mark B. Chadwick,et al. Updated NIEL calculations for estimating the damage induced by particles and γ-rays in Si and GaAs , 2001 .
[178] P. Raimondi,et al. Halo reduction by means of non linear optical elements in the NLC Final Focus system , 2001, PACS2001. Proceedings of the 2001 Particle Accelerator Conference (Cat. No.01CH37268).
[179] Andrew G. Glen,et al. APPL , 2001 .
[180] P. Kneisel,et al. HYDROFORMING OF NBCU CLAD CAVITIES AT DESY , 2001 .
[181] L. Silvestrini,et al. Universal unitarity triangle and physics beyond the standard model , 2001 .
[182] T. Riemann,et al. Probing top flavour-changing neutral couplings at TESLA , 2001 .
[183] Matt Dobbs,et al. The HepMC C++ Monte Carlo event record for High Energy Physics ? ? Available via the following web-a , 2001 .
[184] W. G. Scott,et al. Tri-bimaximal mixing and the neutrino oscillation data , 2002 .
[185] A. Sopczak,et al. Precision measurements in the scalar top sector of the MSSM at a linear e+ e- collider , 2002 .
[186] Per Osland,et al. Two-Higgs-Doublet Models with CP violation , 2002 .
[187] F. Marcellini,et al. CTF3 Design Report , 2002 .
[188] R. Assmann. Review of ultra high-gradient acceleration schemes, results of experiments , 2002 .
[189] P. Bosland,et al. NEW RESULTS ON RF PROPERTIES OF SUPERCONDUCTING NIOBIUM FILMS USING A THERMOMETRIC SYSTEM , 2002 .
[190] V. Telnov,et al. CLIC 3-TeV photon collider option , 2002 .
[191] H. Videau,et al. Detector simulation with MOKKA / GEANT4: Present and future , 2002 .
[192] Yves Sirois,et al. Search for Particles and Forces Beyond the Standard Model at HERA ep and Tevatron p\bar{p} Colliders , 2002 .
[193] P. Richardson,et al. Implementation of supersymmetric processes in the HERWIG event generator , 2002, hep-ph/0204123.
[194] Tadashi Yoshikawa,et al. Zee Model Confronts SNO Data , 2002 .
[195] Shuoqin Wang,et al. X-ray emission from betatron motion in a plasma wiggler. , 2002, Physical review letters.
[196] S. Godfrey,et al. Discovery potential for doubly charged Higgs bosons in e+e− collisions at LEP , 2002 .
[197] F. Boudjema,et al. micrOMEGAs : A program for calculating the relic density in the MSSM , 2002 .
[198] J. N. Abdurashitov,et al. Solar neutrino flux measurements by the Soviet-American gallium experiment (SAGE) for half the 22-year solar cycle , 2002 .
[199] M. Taborelli,et al. CLIC HIGH-GRADIENT TEST RESULTS , 2002 .
[200] F. Zimmermann,et al. A Nonlinear Collimation System For CLIC , 2002 .
[201] R. C. Allen,et al. Direct evidence for neutrino flavor transformation from neutral-current interactions in the Sudbury Neutrino Observatory. , 2002, Physical review letters.
[202] N. E. Booth,et al. Upper limits for neutrino oscillations muon-anti-neutrino ---> electron-anti-neutrino from muon decay at rest , 2002, hep-ex/0203021.
[203] Y. Nosochkov,et al. COMPARISON OF DIFFERENT TRACKING CODES FOR BEAM DELIVERY SYSTEMS OF LINEAR COLLIDERS , 2002 .
[204] E. Esarey,et al. Synchrotron radiation from electron beams in plasma-focusing channels. , 2002, Physical review. E, Statistical, nonlinear, and soft matter physics.
[205] S. Petcov,et al. The LMA MSW solution of the solar neutrino problem, inverted neutrino mass hierarchy and reactor neutrino experiments , 2001, hep-ph/0112074.
[206] S. Khan,et al. DIAGNOSTICS OF INSTABILITIES AT BESSY II USING THE DIGITAL LONGITUDINAL FEEDBACK SYSTEM , 2002 .
[207] U. Wiedemann,et al. Central and Non-central HBT from AGS to RHIC , 2002, hep-ph/0210250.
[208] Y. Nosochkov,et al. Tuning Knobs for the NLC Final Focus , 2002, physics/0206068.
[209] S. Kuroda,et al. Final focus test optics for the ATF , 2002 .
[210] J. Farine,et al. Measurement of the rate of νe+d → p+p+e− interactions produced by 8B solar neutrinos at the Sudbury Neutrino Observatory , 2002 .
[211] KamLAND-Zen Collaboration,et al. First Results from KamLAND: Evidence for Reactor Anti-Neutrino Disappearance , 2002 .
[212] A. Ibarra,et al. A Lower bound on the right-handed neutrino mass from leptogenesis , 2002, hep-ph/0202239.
[213] 장윤희,et al. Y. , 2003, Industrial and Labor Relations Terms.
[214] S. Huber,et al. Flavor violation and warped geometry , 2003, hep-ph/0303183.
[215] Xiao-Gang He. Is the Zee model neutrino mass matrix ruled out? , 2003 .
[216] F. Scholz,et al. RRR Degradation and Gas Absorption in the Electron Beam Welding Area of High Purity Niobium , 2003 .
[217] A. ADoefaa,et al. ? ? ? ? f ? ? ? ? ? , 2003 .
[218] K. S. Babu,et al. Two-loop neutrino mass generation and its experimental consequences , 2003 .
[219] James D. Wells. Implications of Supersymmetry Breaking with a Little Hierarchy between Gauginos and Scalars , 2003 .
[220] J. Knobloch. The ``Q disease'' in Superconducting Niobium RF Cavities , 2003 .
[221] Stephan Russenschuck,et al. CLIC Beam Delivery System , 2003 .
[222] S. Petcov,et al. Precision neutrino oscillation physics with an intermediate baseline reactor neutrino experiment , 2003, hep-ph/0306017.
[223] Howard E. Haber,et al. The CP-conserving two-Higgs-doublet model: the approach to the decoupling limit , 2003 .
[224] S. Heinemeyer,et al. Towards high-precision predictions for the MSSM Higgs sector , 2002, hep-ph/0212020.
[225] I. Syratchev,et al. Demonstration of high-gradient acceleration , 2003, Proceedings of the 2003 Particle Accelerator Conference.
[226] J. Espinosa,et al. Implications for New Physics from Fine-Tuning Arguments: I. Application to SUSY and Seesaw Cases , 2004, hep-ph/0410298.
[227] E. al.,et al. Evidence for an oscillatory signature in atmospheric neutrino oscillation , 2004, hep-ex/0404034.
[228] R.Barbier,et al. R-parity violating supersymmetry , 2004, hep-ph/0406039.
[229] Amarjit Soni,et al. B-factory signals for a warped extra dimension. , 2004, Physical review letters.
[230] S. W. Ham,et al. Electroweak phase transition in a nonminimal supersymmetric model , 2004, hep-ph/0406062.
[231] T. Riemann,et al. Physics at the CLIC multi-TeV linear collider , 2004, hep-ph/0412251.
[232] T.Kajita,et al. A New calculation of the atmospheric neutrino flux in a 3-dimensional scheme , 2004, astro-ph/0404457.
[233] J. A. Aguilar-Saavedra. Top flavor-changing neutral interactions: Theoretical expectations and experimental detection , 2004, hep-ph/0409342.
[234] M. Taborelli,et al. A High-Power Test of an X-Band Molybdenum-Iris Structure , 2004 .
[235] Jay G. Wacker,et al. One Loop Predictions of the Finely Tuned SSM , 2004 .
[236] L. Rossi,et al. DESIGN AND FABRICATION OF SUPERFLUID HELIUM HEAT EXCHANGER TUBES FOR THE LHC SUPERCONDUCTING MAGNETS , 2004 .
[237] G. Giudice,et al. Erratum to: "Split supersymmetry" [Nucl. Phys. B 699 (2004) 65] , 2004, hep-ph/0406088.
[238] Roberto Contino,et al. The Minimal Composite Higgs Model , 2005 .
[239] Minoru Yoshida,et al. Measurement of atmospheric neutrino oscillation parameters by Super-Kamiokande I , 2005 .
[240] Amarjit Soni,et al. Flavor Structure of Warped Extra Dimension Models , 2005 .
[241] Ericka Stricklin-Parker,et al. Ann , 2005 .
[242] A. Gouvea. Seesaw energy scale and the LSND anomaly , 2005, hep-ph/0501039.
[243] Margarete Mühlleitner,et al. SDECAY: a Fortran code for the decays of the supersymmetric particles in the MSSM , 2005, Comput. Phys. Commun..
[244] Kiwoon Choi,et al. Soft supersymmetry breaking in KKLT flux compactification , 2005 .
[245] I. Syratchev,et al. 30 GHz Power Production in CTF3 , 2005, Proceedings of the 2005 Particle Accelerator Conference.
[246] A. M. Curiel,et al. Lepton flavor violating Higgs boson decays from massive seesaw neutrinos , 2004, hep-ph/0407302.
[247] S. Dimopoulos,et al. Aspects of Split Supersymmetry , 2004, hep-ph/0409232.
[248] James D. Wells,et al. PeV-scale supersymmetry , 2004, hep-ph/0411041.
[249] D. Proch,et al. Influence of TA Content in High Purity Niobium on Cavity Performance , 2004, Proceedings of the 2005 Particle Accelerator Conference.
[250] Gino Isidori,et al. Minimal flavor violation in the lepton sector , 2005 .
[251] Alessandro Strumia,et al. Supersymmetry and precision data after LEP2 , 2005 .
[252] Cyril Hugonie,et al. Relic density of dark matter in the NMSSM , 2005 .
[253] T. Plehn,et al. Split supersymmetry at colliders , 2004, hep-ph/0507137.
[254] Cyril Hugonie,et al. NMHDECAY: A fortran code for the Higgs masses, couplings and decay widths in the NMSSM , 2005 .
[255] B. Roe,et al. Boosted decision trees as an alternative to artificial neural networks for particle identification , 2004, physics/0408124.
[256] V. Telnov. Crossing angle at the photon collider , 2005, physics/0507134.
[257] A. Brachmann,et al. The role of polarized positrons and electrons in revealing fundamental interactions at the Linear Collider , 2005, hep-ph/0507011.
[258] D. Burke,et al. High Gradient Performance of NLC/GLC X-Band Accelerating Structures , 2005, Proceedings of the 2005 Particle Accelerator Conference.
[259] Savas Dimopoulos,et al. Supersymmetric unification without low energy supersymmetry and signatures for fine-tuning at the LHC , 2004, hep-th/0405159.
[260] T. Asaka,et al. The νMSM, dark matter and baryon asymmetry of the universe , 2005, hep-ph/0505013.
[261] E. Jensen,et al. A HIGH-GRADIENT TEST OF A 30 GHZ MOLYBDENUM-IRIS STRUCTURE , 2006 .
[262] M. Cacciari,et al. Dispelling the N3 myth for the kt jet-finder , 2005, hep-ph/0512210.
[263] M. Taborelli,et al. INVESTIGATIONS OF DC BREAKDOWN FIELDS , 2006 .
[264] D.E. Root,et al. Polyharmonic distortion modeling , 2006, IEEE Microwave Magazine.
[265] Jeremy McCormick,et al. Simulator For The Linear Collider (SLIC): A Tool For ILC Detector Simulations , 2006 .
[266] Measurement and interpretation of fermion-pair production at LEP energies above the Z resonance , 2005, hep-ex/0512012.
[267] N. Arkani-Hamed,et al. The Well-Tempered Neutralino , 2006 .
[268] S. Incerti,et al. Geant4 developments and applications , 2006, IEEE Transactions on Nuclear Science.
[269] Ernest Ma. Verifiable radiative seesaw mechanism of neutrino mass and dark matter , 2006 .
[270] W. Singer. Metallurgical and Technological Request for High Purity Niobium in SRF Application , 2006 .
[271] F. Gaede. Marlin and LCCD—Software tools for the ILC , 2006 .
[272] K. Filimonov,et al. CERES/NA45 Collaboration , 2006 .
[273] H. Wen,et al. Gas and RRR distribution in high purity Niobium EB welded in Ultra‐High Vacuum , 2006 .
[274] M. M. Muhlleitner,et al. Decays of Supersymmetric Particles --- the Program SUSY-HIT , 2006 .
[275] Leonardo Senatore,et al. Minimal model for dark matter and unification , 2006 .
[276] Alessandro Strumia,et al. Minimal Dark Matter , 2006 .
[277] Gustavo Burdman,et al. Folded supersymmetry and the LEP paradox , 2006, hep-ph/0609152.
[278] 井上 邦雄. Solar neutrino measurements in Super-Kamiokande-I , 2006 .
[279] R. A. Graham. Single Crystal Technology for Making RRR Niobium Sheet , 2007 .
[280] D. Zeppenfeld,et al. Unitarity constraints on MSSM trilinear couplings , 2007, 0710.5175.
[281] Chong-Xing Yue,et al. Lepton flavor violating signals of a little Higgs model at high energy linear e+e- colliders , 2007 .
[282] Benoît Bolzon,et al. Etude des vibrations et de la stabilisation à l'échelle sous-nanométrique des doublets finaux d'un collisionneur linéaire , 2007 .
[283] S. Heinemeyer,et al. The Higgs Boson Masses and Mixings of the Complex MSSM in the Feynman-Diagrammatic Approach , 2007 .
[284] B. Acharya,et al. THE ABDUS SALAM INTERNATIONAL CENTRE FOR THEORETICAL PHYSICS EXPLAINING THE ELECTROWEAK SCALE AND STABILIZING MODULI IN M THEORY , 2007 .
[285] F. Tegenfeldt,et al. TMVA - Toolkit for multivariate data analysis , 2012 .
[286] A. Smirnov,et al. Right-Handed Neutrinos at CERN LHC and the Mechanism of Neutrino Mass Generation , 2007, 0705.3221.
[287] D. Larbalestier,et al. REVIEW OF MAGNETO-OPTICAL RESULT ON HIGH-PURITY NB FOR SUPERCONDUCTING RF APPLICATION , 2007 .
[288] M. Velasco,et al. Non-destructive single shot bunch length measurements for the CLIC Test Facility 3 , 2007, 2007 IEEE Particle Accelerator Conference (PAC).
[289] Riccardo Barbieri,et al. Supersymmetry without a Light Higgs Boson , 2006, hep-ph/0607332.
[290] Arnaud Ferrari,et al. Pair production of heavy MSSM charged and neutral Higgs bosons in multi-TeV e(+)e(-) collisions at the Compact Linear Collider , 2007 .
[291] P. Kneisel,et al. A Single Crystal Niobium RF Cavity of the TESLA Shape , 2007 .
[292] C. Yue,et al. Single production of the doubly charged scalar in the littlest Higgs model , 2007, 0706.0232.
[293] Wei Lu,et al. Energy doubling of 42 GeV electrons in a metre-scale plasma wakefield accelerator , 2007, Nature.
[294] J.J.Cao,et al. SUSY-induced FCNC top-quark processes at the Large Hadron Collider , 2007, hep-ph/0702264.
[295] Kyoungchul Kong,et al. Phenomenology of top partners at the ILC , 2007 .
[296] B. Grinstein. Minimal Flavor Violation , 2007, 0706.4185.
[297] Cyril Hugonie,et al. NMSPEC: A Fortran code for the sparticle and Higgs masses in the NMSSM with GUT scale boundary conditions , 2007, Comput. Phys. Commun..
[298] L. Rossi,et al. Industrial Learning Curves: Series Production of the LHC Main Superconducting Dipoles , 2007, IEEE Transactions on Applied Superconductivity.
[299] Gabe Shaughnessy,et al. Singlet Higgs phenomenology and the electroweak phase transition , 2007, 0705.2425.
[300] M. B. Gavela,et al. Low energy effects of neutrino masses , 2007, 0707.4058.
[301] M.Adachi,et al. CURRENT STATUS OF THE CONTROL SYSTEM FOR J-PARC ACCELERATOR COMPLEX , 2007 .
[302] Ernest Ma,et al. Observing the dark scalar doublet and its impact on the standard-model Higgs boson at colliders , 2007, 0708.2939.
[303] Amarjit Soni,et al. Collider signals of top quark flavor violation from a warped extra dimension , 2007 .
[304] B Schmidt,et al. Benchmarking of electro-optic monitors for femtosecond electron bunches. , 2007, Physical review letters.
[305] M. Strassler,et al. Echoes of a hidden valley at hadron colliders , 2006, hep-ph/0604261.
[306] Jing Shao,et al. The G(2)-MSSM: An M Theory motivated model of Particle Physics , 2008, 0801.0478.
[307] D. Kaltchev,et al. Effect of phase advance between interaction points in the LHC on the beam-beam interaction , 2008 .
[308] J. Butterworth,et al. Ju n 20 08 Jet substructure as a new Higgs search channel at the LHC , 2008 .
[309] Andrzej J. Buras,et al. ΔF = 2 observables and fine-tuning in a warped extra dimension with custodial protection , 2008, 0809.1073.
[310] M. Decowski,et al. Precision measurement of neutrino oscillation parameters with KamLAND. , 2007, Physical review letters.
[311] Adrian Vogel,et al. Beam-induced backgrounds in detectors at the ILC , 2008 .
[312] C. Grojean,et al. A Model of Lepton Masses from a Warped Extra Dimension , 2008, 0806.0356.
[313] David E Kaplan,et al. Top-Tagging: A Method for Identifying Boosted Hadronic Tops , 2008 .
[314] Jesse Thaler,et al. The dark top , 2008, 0808.1290.
[315] Konstantin Stefanov,et al. Monolithic Active Pixel Sensors (MAPS) in a Quadruple Well Technology for Nearly 100% Fill Factor and Full CMOS Pixels , 2008, Sensors.
[316] U. Haisch,et al. Flavor physics in the Randall-Sundrum model I. Theoretical setup and electroweak precision tests , 2008, 0807.4937.
[317] M. Cacciari,et al. The anti-$k_t$ jet clustering algorithm , 2008, 0802.1189.
[318] Beijing,et al. General CP violation in minimal left–right symmetric model and constraints on the right-handed scale , 2007, 0712.4218.
[319] S.Lee,et al. Design and electronics commissioning of the physics prototype of a Si-W electromagnetic calorimeter for the International Linear Collider , 2008, 0805.4833.
[320] Paul Langacker,et al. CERN LHC phenomenology of an extended standard model with a real scalar singlet , 2007, 0706.4311.
[321] M. Strassler,et al. Discovering the Higgs through highly-displaced vertices , 2006, hep-ph/0605193.
[322] C. Csaki,et al. A GIM mechanism from extra dimensions , 2007, 0709.1714.
[323] G. Giudice,et al. Higgs-dependent Yukawa couplings , 2008, 0804.1753.
[324] B. D. Bates,et al. The PHOBOS collaboration , 2009 .
[325] R Tomas,et al. Dynamics effects in the new CLIC Main LINAC , 2009 .
[326] E. Akhmedov,et al. Paradoxes of neutrino oscillations , 2009, 0905.1903.
[327] Maxim Perelstein,et al. Polarized tops from stop decays at the LHC , 2008, 0811.1024.
[328] Chong-Sheng Li,et al. Effective dark matter model: relic density, CDMS II, Fermi LAT and LHC , 2009, 0912.4511.
[329] E. Brandt. Electrodynamics of Superconductors Exposed to High Frequency Fields , 2010, 1008.2231.
[330] Burak Bilki,et al. Response of the CALICE Si-W Electromagnetic Calorimeter Physics Prototype to Electrons , 2008, 0811.2354.
[331] V. P. Efrosinin,et al. What are the Neutrino Masses , 2009 .
[332] Andrzej J. Buras,et al. Electroweak and Flavour Structure of a Warped Extra Dimension with Custodial Protection , 2009, 0903.2415.
[333] John Terning,et al. A Quirky Little Higgs Model , 2008, 0812.0843.
[334] M. B. Gavela,et al. Minimal flavour seesaw models , 2009, 0906.1461.
[335] A. Azatov,et al. Higgs mediated flavor changing neutral currents in warped extra dimensions , 2009, 0906.1990.
[336] P. Kneisel,et al. Hydroforming of Multi-Cell Niobium and NbCu-Clad Cavities , 2009 .
[337] Los Alamos National Laboratory,et al. Pseudo-Dirac Neutrinos in the New Standard Model , 2009, 0906.1611.
[338] Maria Beltran,et al. Deducing the nature of dark matter from direct and indirect detection experiments in the absence of collider signatures of new physics , 2008, 0808.3384.
[339] F. Furuta,et al. Single crystal niobium development , 2009 .
[340] G. S. Averichev,et al. Strangeness production in STAR , 2008, 0809.0823.
[341] F. Furuta,et al. MULTI-WIRE SLICING OF LARGE GRAIN INGOT MATERIAL , 2009 .
[342] Andrzej J. Buras,et al. Rare K and B Decays in a warped extra dimension with custodial protection , 2008, 0812.3803.
[343] Stephanie Q. Yang,et al. The LCFIVertex package: Vertexing, flavour tagging and vertex charge reconstruction with an ILC vertex detector , 2009, 0908.3019.
[344] M. K. Lee,et al. Results from PHENIX on Deuteron and Anti-Deuteron Production in Au+Au Collisions at RHIC , 2004, nucl-ex/0409006.
[345] Jure Zupan,et al. General minimal flavor violation , 2009, 0903.1794.
[346] K. Agashe,et al. Composite Higgs-mediated flavor-changing neutral current , 2009, 0906.1542.
[347] M. Thomson. Particle flow calorimetry and the PandoraPFA algorithm , 2009, 0907.3577.
[348] V. Cerný,et al. The NA49 Collaboration , 2009 .
[349] J. A. Aguilar-Saavedra,et al. Distinguishing seesaw models at LHC with multi-lepton signals , 2008, 0808.2468.
[350] J. A. Aguilar-Saavedra. A minimal set of top-Higgs anomalous couplings , 2009, 0904.2387.
[351] T. Han,et al. The Search for Heavy Majorana Neutrinos , 2009, 0901.3589.
[352] K. Hayasaka,et al. Searches for LFV at B factories , 2009 .
[353] Gudrid Moortgat-Pick,et al. Towards measuring the stop mixing angle at the LHC , 2009, 0909.3196.
[354] Philippe Lebrun,et al. ASSESSING RISK IN COSTING HIGH-ENERGY ACCELERATORS:FROM EXISTING PROJECTS TO THE FUTURE LINEAR COLLIDER , 2010 .
[355] J. Menendez,et al. Neutrinoless double beta decay in seesaw models , 2010, 1005.3240.
[356] Alexey A. Petrov,et al. The flavor puzzle in multi-Higgs models , 2010, 1009.1612.
[357] P. Dauncey. Performance of CMOS sensors for a digital electromagnetic calorimeter , 2011 .
[358] Gerald Grenier,et al. Lepton flavour violating Higgs and tau to mu gamma , 2010, 1001.0434.
[359] Patrick J. Fox,et al. The Tevatron at the frontier of dark matter direct detection , 2010, 1005.3797.
[360] J. Kopp,et al. Neutrino oscillations: quantum mechanics vs. quantum field theory , 2010, 1001.4815.
[361] M. Misiak,et al. Dimension-six terms in the Standard Model Lagrangian , 2010, 1008.4884.
[362] W. A. Gillespie,et al. Upconversion of a relativistic Coulomb field terahertz pulse to the near infrared , 2010 .
[363] S. T. Petcov,et al. TeV scale see-saw mechanisms of neutrino mass generation, the Majorana nature of the heavy singlet neutrinos and (ββ)0ν-decay , 2010, 1007.2378.
[364] U. Haisch,et al. Flavor physics in the Randall-Sundrum model: II. Tree-level weak-interaction processes , 2009, 0912.1625.
[365] The Ild Concept Group,et al. The International Large Detector: Letter of Intent , 2010, 1006.3396.
[366] Howard E. Haber,et al. Two-component spinor techniques and Feynman rules for quantum field theory and supersymmetry , 2008, 0812.1594.
[367] JiJi Fan,et al. Non-relativistic effective theory of dark matter direct detection , 2010, 1008.1591.
[368] T. Tait,et al. Constraints on dark matter from colliders , 2010, 1008.1783.
[369] N. Shumeiko,et al. Construction and Commissioning of the CALICE Analog Hadron Calorimeter Prototype , 2010, 1003.2662.
[370] W. Singer,et al. RRR-Measurement Techniques on High Purity Niobium , 2010 .
[371] Y. J. Kim,et al. Search for lepton-flavor-violating τ decays into three leptons with 719 million produced τ+τ− pairs , 2010 .
[372] M. Stanitzki,et al. Design Study for a SuperB Pixel Vertex Detector , 2010, 1008.1938.
[373] P. Schade,et al. Description of the signal and background event mixing as implemented in the Marlin processor OverlayTiming , 2011 .
[374] J. Urakawa,et al. First observation of the point spread function of optical transition radiation. , 2011, Physical review letters.
[375] M. Buckley,et al. Asymmetric dark matter and effective operators , 2011, 1104.1429.
[376] Andreas Weiler,et al. Flavor and CP invariant composite Higgs models , 2011, 1106.6357.
[377] Y. Kazama. Baryon- and Lepton-Nonconserving Processes , 2011 .
[378] W. Kilian,et al. WHIZARD—simulating multi-particle processes at LHC and ILC , 2007, 0708.4233.
[379] X. Singer,et al. Advances in Large Grain Resonators for the European XFEL , 2011 .
[380] E. Wilson. Sir John Adams: his legacy to the world of particle accelerators , 2011, 1102.4777.
[381] A. Anders. DEPOSITION OF NIOBIUM AND OTHER SUPERCONDUCTING MATERIALS WITH HIGH POWER IMPULSE MAGNETRON SPUTTERING: CONCEPT AND FIRST RESULTS , 2011 .
[382] Norman A Graf. org.lcsim: Event Reconstruction in Java , 2011 .
[383] Giuliano Panico,et al. The discrete composite Higgs model , 2011, 1106.2719.
[384] H. Umezawa. Niobium Production at Tokyo Denkai , 2011 .
[385] A. Letourneau,et al. The reactor antineutrino anomaly , 2011, 1101.2755.
[386] M. Laveder,et al. 3+1 and 3+2 Sterile Neutrino Fits , 2011, 1107.1452.
[387] A. Korolev,et al. A New Approach for RRR Determination of Niobium Single Crystal Based on AC Magnetic Susceptibility , 2011 .
[388] Antonino. TOTALLY UNEXPECTED RESULTS FROM THE ISR , 2011 .
[389] M. Killenberg. Software and Parameters for Detailed TPC Studies in the CLIC CDR , 2011 .
[390] Andre Sailer,et al. Physics performances for Scalar Electrons, Scalar Muons and Scalar Neutrinos searches at CLIC , 2011, 1201.2092.
[391] H. Inoue,et al. MgB2 THIN FILM STUDIES , 2011 .
[392] Marco Serone,et al. Leptons in holographic composite Higgs models with non-abelian discrete symmetries , 2011, 1106.4021.
[393] M. Toups,et al. Indication for the disappearance of reactor electron antineutrinos in the Double Chooz experiment , 2011, 1112.6353.
[394] Michael Campbell,et al. TSV processing of Medipix3 wafers by CEA-LETI: a progress report , 2011 .
[395] S. Cormon,et al. Improved Predictions of Reactor Antineutrino Spectra , 2011, 1101.2663.
[396] Hai-Bo Yu,et al. Constraints on Light Majorana dark Matter from Colliders , 2010, 1005.1286.
[397] M. Stanitzki,et al. Design and performance of a CMOS study sensor for a binary readout electromagnetic calorimeter , 2011, 1103.4265.
[398] M. Cacciari,et al. FastJet user manual , 2011, 1111.6097.
[399] L. Hall,et al. A natural SUSY Higgs near 125 GeV , 2011, 1112.2703.
[400] C. Garion. Simulations and Vacuum Tests of a CLIC Accelerating Structure , 2011 .
[401] J. López‐Pavón,et al. Minimal models with light sterile neutrinos , 2011, 1106.0064.
[402] Development of Nb and Alternative Material Thin Films Tailored for SRF Applications , 2011 .
[403] P. Huber. On the determination of anti-neutrino spectra from nuclear reactors , 2011 .
[404] L. Y. Wang,et al. Observation of electron-antineutrino disappearance at Daya Bay. , 2012, Physical review letters.
[405] Astrid Munnich,et al. Measurement of Chargino and Neutralino Production at CLIC , 2012, 1202.5489.
[406] N. Marks,et al. Novel Adjustable Permanent Magnet Quadrupoles for the CLIC Drive Beam Decelerator , 2012, IEEE Transactions on Applied Superconductivity.
[407] John Ellis,et al. Flavour-Changing Decays of a 125 GeV Higgs-like Particle , 2012, 1202.5704.
[408] P. Hernández,et al. Probing the neutrino mass hierarchy with Super-Kamiokande , 2012, Journal of High Energy Physics.
[409] Francesco Riva,et al. Strong electroweak phase transitions in the Standard Model with a singlet , 2011, 1107.5441.
[410] G. Degrassi,et al. Higgs mass and vacuum stability in the Standard Model at NNLO , 2012, 1205.6497.
[411] A. Gouvea,et al. Constraining the (low-energy) type-I seesaw Lagrangian , 2011, 1110.6122.
[412] Mark Thomson,et al. The Pandora Software Development Kit for Particle Flow Calorimetry , 2012 .
[413] F. Vissani,et al. Neutrinoless Double Beta Decay and Heavy Sterile Neutrinos , 2011, 1108.0004.
[414] P. S. Bhupal Dev,et al. Bounds on TeV seesaw models from LHC Higgs data , 2012, 1207.2756.
[415] S. Wu,et al. The Higgs at last. , 2012, Scientific American.
[416] Riccardo Rattazzi,et al. A first top partner hunter’s guide , 2012, 1211.5663.
[417] T. Schwetz,et al. The minimal 3 + 2 neutrino model versus oscillation anomalies , 2012, 1205.5230.
[418] A Muennich,et al. The CLIC ILD CDR Geometry for the CDR Monte Carlo Mass Production , 2012 .
[419] I. G. Park,et al. Observation of reactor electron antineutrinos disappearance in the RENO experiment. , 2012, Physical review letters.
[420] M. Aiba,et al. Ultra low vertical emittance at SLS through systematic and random optimization , 2012 .
[421] Francesco Riva,et al. The composite Higgs and light resonance connection , 2012, 1205.6434.
[422] K. Tobioka,et al. Gluino decay as a probe of high scale supersymmetry breaking , 2012, 1207.3608.
[423] R. Frederix,et al. Automatic spin-entangled decays of heavy resonances in Monte Carlo simulations , 2012, 1212.3460.
[424] J. Wudka,et al. Effective Lagrangian approach to neutrinoless double beta decay and neutrino masses , 2012, 1204.5986.
[425] Matthew J. Dolan,et al. Higgs self-coupling measurements at the LHC , 2012, 1206.5001.
[426] B. Harling,et al. Physics and Detectors at CLIC: CLIC Conceptual Design Report , 2012 .
[427] Carroll L. Wainwright,et al. CosmoTransitions: Computing cosmological phase transition temperatures and bubble profiles with multiple fields , 2011, Comput. Phys. Commun..
[428] A. Sailer,et al. Beam-Induced Backgrounds in the CLIC Detectors , 2012 .
[429] C. Garion,et al. Development of a New RF Finger concept for vacuum beam line interconnections , 2012 .
[430] Debottam Das,et al. Enhanced Higgs mediated lepton flavour violating processes in the supersymmetric inverse seesaw model , 2011, 1111.5836.
[431] S. Stapnes,et al. The CLIC programme: Towards a staged $e^{+}e^{−}$ linear collider exploring the terascale : CLIC conceptual design report , 2012, 1209.2543.
[432] Dao-Xin Yao,et al. Constraining the interaction strength between dark matter and visible matter: II. Scalar, vector and spin-3/2 dark matter , 2011, 1112.6052.
[433] Ulrich Ellwanger,et al. NMSDECAY: A Fortran code for supersymmetric particle decays in the Next-to-Minimal Supersymmetric Standard Model , 2011, Comput. Phys. Commun..
[434] Michele Redi,et al. Composite MFV and beyond , 2012, 1203.4220.
[435] A. Onofre,et al. Top effective operators at the ILC , 2012, Journal of High Energy Physics.
[436] Xiao-Jun Bi,et al. Constraining the interaction strength between dark matter and visible matter: I. Fermionic dark matter , 2010, 1012.2022.
[437] Marco Serone,et al. General lepton mixing in holographic composite Higgs models , 2011, 1110.4612.
[438] C. Antoine,et al. Materials and surface aspects in the development of SRF Niobium cavities; EuCARD Editorial Series on , 2012 .
[439] Kingman Cheung,et al. Global constraints on effective dark matter interactions: relic density, direct detection, indirect detection, and collider , 2012, 1201.3402.
[440] F. Caspers. RF engineering basic concepts: S-parameters , 2012, 1201.2346.
[441] C. Cheung,et al. Prospects and blind spots for neutralino dark matter , 2012, 1211.4873.
[442] Kurt Artoos,et al. Review: Inertial sensors for low-frequency seismic vibration measurement , 2012 .
[443] G. Mavromanolakis,et al. Hadronic energy resolution of a highly granular scintillator-steel hadron calorimeter using software compensation techniques , 2012, 1207.4210.
[444] S. Moch,et al. The top quark and Higgs boson masses and the stability of the electroweak vacuum , 2012, 1207.0980.
[445] M. Shaposhnikov,et al. Dark Matter, Baryogenesis and Neutrino Oscillations from Right Handed Neutrinos , 2012, 1208.4607.
[446] A. Albert,et al. Search for gamma-ray spectral lines with the Fermi Large Area Telescope and dark matter implications , 2013, 1305.5597.
[447] Los Alamos National Laboratory,et al. The Long-Baseline Neutrino Experiment: Exploring Fundamental Symmetries of the Universe , 2013, 1307.7335.
[448] B. Grinstein,et al. Carving out parameter space in type-II two Higgs doublets model , 2013, Journal of High Energy Physics.
[449] M. Thomson,et al. Performance of Particle Flow Calorimetry at CLIC , 2012, 1209.4039.
[450] T. Schwetz,et al. Sterile neutrino oscillations: the global picture , 2013, 1303.3011.
[451] Shigeki Fukuda,et al. The International Linear Collider Technical Design Report - Volume 3.I: Accelerator \& in the Technical Design Phase , 2013 .
[452] C. James,et al. Superconducting Nb Thin Films on Cu for Applications in SRF Accelerators , 2013, IEEE Transactions on Applied Superconductivity.
[453] Richard D. Ball,et al. Higgs production in gluon fusion beyond NNLO , 2013, 1303.3590.
[454] Biswarup Mukhopadhyaya,et al. Invisible Higgs decay in a supersymmetric inverse seesaw model with light sneutrino dark matter , 2013, 1306.2143.
[455] M. Mühlleitner,et al. Interim recommendations for the evaluation of Higgs production cross sections and branching ratios at the LHC in the Two-Higgs-Doublet Model , 2013, 1312.5571.
[456] Shinya Kanemura,et al. Radiative corrections to the Higgs boson couplings in the triplet model , 2012, 1211.6029.
[457] Nicola De Filippis,et al. Electroweak measurements in electron positron collisions at W-boson-pair energies at LEP , 2013 .
[458] Michele Redi,et al. Leptons in composite MFV , 2013, 1306.1525.
[459] Hale Sert,et al. Tackling light higgsinos at the ILC , 2013, 1307.3566.
[460] Marco O. P. Sampaio,et al. ScannerS: constraining the phase diagram of a complex scalar singlet at the LHC , 2013, 1301.2599.
[461] S. King,et al. Neutrino mass and mixing with discrete symmetry , 2013, Reports on progress in physics. Physical Society.
[462] M. P. Le,et al. Bounds on dark matter interactions with electroweak gauge bosons , 2012, 1210.0525.
[463] E. van der Kraaij,et al. Physics performance for scalar electron, scalar muon and scalar neutrino searches at $ \sqrt{s} $ = 3 TeV and 1.4 TeV at CLIC , 2013, 1304.2825.
[464] M. Thomson,et al. Pandora Particle Flow Algorithm , 2013, 1308.4537.
[465] D. A. Wickremasinghe,et al. Improved search for ν¯(μ)→ν¯(e) oscillations in the MiniBooNE experiment. , 2012, Physical review letters.
[466] Christophe Grojean,et al. Effective Lagrangian for a light Higgs-like scalar , 2013, 1303.3876.
[467] Roberto Franceschini,et al. Natural islands for a 125 GeV Higgs in the scale-invariant NMSSM , 2012, 1209.2115.
[468] Yosef Nir,et al. Higgs couplings to fermions: 2HDM with MFV , 2013, 1304.6727.
[469] D. Budjáš,et al. Results on neutrinoless double-β decay of 76Ge from phase I of the GERDA experiment. , 2013, Physical review letters.
[470] B. Curé,et al. Characterization of a Large Size Co-Extruded Al-Ni Stabilized Nb-Ti Superconducting Cable for Future Detector Magnets , 2013, IEEE Transactions on Applied Superconductivity.
[471] Michael Gustafsson,et al. Predictive model for radiatively induced neutrino masses and mixings with dark matter. , 2012, Physical review letters.
[472] Martin Jankowiak,et al. LHC probes the hidden sector , 2012, 1212.3620.
[473] M. Berggren,et al. Simplified SUSY at the ILC , 2013, 1308.1461.
[474] Anibal D. Medina,et al. The scale-invariant NMSSM and the 126 GeV Higgs boson , 2012, 1212.5243.
[475] Benjamin Skipp. Pärt , 2013, Tempo.
[476] M. Stanitzki,et al. The International Linear Collider Technical Design Report - Volume 1: Executive Summary , 2013 .
[477] C. Collaboration,et al. Projected Performance of an Upgraded CMS Detector at the LHC and HL-LHC: Contribution to the Snowmass Process , 2013, 1307.7135.
[478] R. Sundrum,et al. Baryogenesis for weakly interacting massive particles , 2013 .
[479] Jure Zupan,et al. Flavor violating Higgs decays , 2012, 1209.1397.
[480] Matthew McCullough,et al. New probe of naturalness. , 2013, Physical review letters.
[481] M. Tytgat,et al. Scalar dark matter models with significant internal bremsstrahlung , 2013, 1307.6480.
[482] A. Pomarol,et al. Higgs windows to new physics through d = 6 operators: constraints and one-loop anomalous dimensions , 2013, 1308.1879.
[483] Christophe Grojean,et al. Modified Higgs physics from composite light flavors , 2013, 1303.5701.
[484] Herbert Dreiner,et al. Illuminating dark matter at the ILC , 2012, 1211.2254.
[485] Shigeki Fukuda,et al. The International Linear Collider Technical Design Report - Volume 3.II: Accelerator Baseline Design , 2013 .
[486] A. Matheisen,et al. The Challenge and Realization of the Cavity Production and Treatment in Industry for the European XFEL , 2013 .
[487] S. Lukić,et al. Correction of beam-beam effects in luminosity measurement in the forward region at CLIC , 2013, 1301.1449.
[488] others,et al. Measurement of an excess of B̄→D(*) τ-ν̄τ decays and implications for charged Higgs bosons , 2013, 1303.0571.
[489] A. Pomarol,et al. Renormalization of dimension-six operators relevant for the Higgs decays h → γγ, γZ , 2013, 1302.5661.
[490] Keisuke Fujii,et al. The International Linear Collider Technical Design Report - Volume 2: Physics , 2013 .
[491] Michael Rauch,et al. Dark sector spectroscopy at the ILC , 2013, 1308.4588.
[492] Christophe Grojean,et al. Light top partners and precision physics , 2013, 1306.4655.
[493] Riccardo Barbieri,et al. Exploring the Higgs sector of a most natural NMSSM , 2013, 1304.3670.
[494] Jamie Tattersall,et al. Contact interactions probe effective dark-matter models at the LHC , 2013, 1303.3348.
[495] G. Blanchot,et al. Power-pulsing schemes for vertex detectors at CLIC , 2013 .
[496] Alessandro Strumia,et al. Investigating the near-criticality of the Higgs boson , 2013, 1307.3536.
[497] B. Barish,et al. THE INTERNATIONAL LINEAR COLLIDER , 2013, 1304.2586.
[498] Yanou Cui,et al. Natural baryogenesis from unnatural supersymmetry , 2013, 1309.2952.
[499] P. Kneisel,et al. The Rise of Ingot Niobium as a Material for Superconducting Radiofrequency Accelerating Cavities , 2013, 1304.1722.
[500] Jure Zupan,et al. Constraints on CP-violating Higgs couplings to the third generation , 2013, 1310.1385.
[501] Michael Trott,et al. Renormalization group evolution of the standard model dimension six operators. I: formalism and λ dependence , 2013, Journal of High Energy Physics.
[502] Ian Low,et al. Impersonating the Standard Model Higgs boson: alignment without decoupling , 2013, 1310.2248.
[503] Duccio Pappadopulo,et al. Heavy vector triplets: bridging theory and data , 2014, Journal of High Energy Physics.
[504] Marco O. P. Sampaio,et al. Wrong sign and symmetric limits and non-decoupling in 2HDMs , 2014, 1409.6723.
[505] Apostolos Pilaftsis,et al. Maximally symmetric two Higgs doublet model with natural standard model alignment , 2014, 1408.3405.
[506] A. Boyarsky,et al. Unidentified line in x-ray spectra of the Andromeda galaxy and Perseus galaxy cluster. , 2014, Physical review letters.
[507] Joachim Kopp,et al. Loopy constraints on leptophilic dark matter and internal bremsstrahlung , 2014, 1401.6457.
[508] R. Webb,et al. First results from the LUX dark matter experiment at the Sanford underground research facility. , 2013, Physical review letters.
[509] M. Beneke,et al. Anomalous Higgs couplings in angular asymmetries of H →Zℓ+ℓ− and e+e− →HZ , 2014, 1411.3942.
[510] Tobias Golling,et al. Enhanced Higgs boson coupling to charm pairs , 2014 .
[511] Experimental demonstration of a global dispersion-free steering correction at the new linac test facility at SLAC , 2014 .
[512] M. McCullough. An Indirect Model-Dependent Probe of the Higgs Self-Coupling , 2013, 1312.3322.
[513] C. Grojean,et al. Scaling and tuning of EW and Higgs observables , 2013, 1312.2928.
[514] Marco Nardecchia,et al. Flavor and CP violation in Higgs decays , 2014, Journal of High Energy Physics.
[515] Francesco Riva,et al. Towards the ultimate SM fit to close in on Higgs physics , 2013, 1308.2803.
[516] Giuliano Panico,et al. On the flavor structure of natural composite Higgs models & top flavor violation , 2014 .
[517] Riccardo Barbieri,et al. Higgs couplings and electroweak observables: a comparison of precision tests , 2013, 1311.7493.
[518] J. Helo,et al. Heavy neutrino searches at the LHC with displaced vertices , 2013, 1312.2900.
[519] Martin Gorbahn,et al. Searching for t → c(u)h with dipole moments , 2014, 1404.4873.
[520] Pat Wheeler,et al. Optimal power system and grid interface design considerations for the CLICs klystron modulators , 2014, 2014 IEEE International Power Modulator and High Voltage Conference (IPMHVC).
[521] Claude Duhr,et al. FeynRules 2.0 - A complete toolbox for tree-level phenomenology , 2013, Comput. Phys. Commun..
[522] Francesco Riva,et al. Model-independent precision constraints on dimension-6 operators , 2014, 1411.0669.
[523] J. No,et al. Probing the Higgs Portal at the LHC Through Resonant di-Higgs Production , 2013, 1310.6035.
[524] A. Chao. Lecture Notes on Topics in Accelerator Physics , 2014 .
[525] Ulrich Haisch,et al. Determining the structure of dark-matter couplings at the LHC , 2013, 1311.7131.
[526] Cen Zhang,et al. Effective field theory approach to top-quark decay at next-to-leading order in QCD , 2014, 1404.1264.
[527] Steffen Döbert,et al. EXPERIENCE OPERATING AN X-BAND HIGH-POWER TEST STAND AT CERN , 2014 .
[528] J. Baglio,et al. NMSSMCALC: A program package for the calculation of loop-corrected Higgs boson masses and decay widths in the (complex) NMSSM , 2013, Comput. Phys. Commun..
[529] J. López‐Pavón,et al. Low-scale seesaw models versus $N_{eff}$ , 2013, 1311.2614.
[530] Lisa Randall,et al. Warped dipole completed, with a tower of Higgs bosons , 2014, 1412.6468.
[531] Daniel Schulte,et al. Toolbox for Applying Beam-Based Alignment to Linacs , 2014 .
[532] M. Laubenstein,et al. Final results of Borexino Phase-I on low-energy solar neutrino spectroscopy , 2013, 1308.0443.
[533] J. Favereau,et al. DELPHES 3: A modular framework for fast-simulation of generic collider experiments , 2014 .
[534] Measurement of ultralow vertical emittance using a calibrated vertical undulator , 2014 .
[535] H. Kate,et al. 25th International Cryogenic Engineering Conference and the International Cryogenic Materials Conference in 2014, ICEC 25-ICMC 2014 The influence of the Al stabilizer layer thickness on the normal zone propagation velocity in high current superconductors , 2014, 1409.1186.
[536] A. Vicente,et al. Explaining the CMS Higgs flavor violating decay excess , 2014, 1409.7690.
[537] A. De Roeck,et al. The Physics Programme Of The MoEDAL Experiment At The LHC , 2014, 1405.7662.
[538] W. Lohmann,et al. Performance of fully instrumented detector planes of the forward calorimeter of a Linear Collider detector , 2014, 1411.4431.
[539] Tejpreet Singh Golan,et al. Observation of electron neutrino appearance in a muon neutrino beam. , 2013, Physical review letters.
[540] Kristiane Novotny,et al. 5D perspective on Higgs production at the boundary of a warped extra dimension , 2013, 1303.5702.
[541] D. Straub,et al. Vector-like leptons: Higgs decays and collider phenomenology , 2013, 1312.5329.
[542] Minghao Qi,et al. Dielectric laser accelerators , 2013, 1309.7637.
[543] A. Sailer,et al. ILCDIRAC, a DIRAC extension for the Linear Collider community , 2014 .
[544] Yosef Nir,et al. Model building for flavor changing Higgs couplings , 2014, 1408.1371.
[545] Enrico Morgante,et al. On the validity of the effective field theory for dark matter searches at the LHC part III: analysis for the t-channel , 2013, 1409.6668.
[546] R. Frederix,et al. The automated computation of tree-level and next-to-leading order differential cross sections, and their matching to parton shower simulations , 2014, 1405.0301.
[547] M. Campanelli,et al. First look at the physics case of TLEP , 2013, 1308.6176.
[548] Ken Mimasu,et al. ALPs at colliders , 2014, 1409.4792.
[549] Brian Shuve,et al. Probing baryogenesis with displaced vertices at the LHC , 2014, 1409.6729.
[550] F. Toral,et al. Stripline design for the extraction kicker of Compact Linear Collider damping rings , 2014 .
[551] W. Mori,et al. A Beam Driven Plasma-Wakefield Linear Collider: From Higgs Factory to Multi-TeV , 2014 .
[552] Oscar Stål,et al. Probing the Standard Model with Higgs signal rates from the Tevatron, the LHC and a future ILC , 2014, 1403.1582.
[553] T. Schwetz,et al. Updated fit to three neutrino mixing: status of leptonic CP violation , 2014, Journal of High Energy Physics.
[554] Matthew J. Dolan,et al. Beyond effective field theory for dark matter searches at the LHC , 2013, 1308.6799.
[555] J. López‐Pavón,et al. $N_{\rm eff}$ in low-scale seesaw models versus the lightest neutrino mass , 2014, 1406.2961.
[556] Jungil Lee,et al. Relativistic corrections to Higgs boson decays to quarkonia , 2014, 1407.6695.
[557] Matthew J. Dolan,et al. Characterising dark matter searches at colliders and direct detection experiments: vector mediators , 2014, 1407.8257.
[558] M. Markevitch,et al. DETECTION OF AN UNIDENTIFIED EMISSION LINE IN THE STACKED X-RAY SPECTRUM OF GALAXY CLUSTERS , 2014, 1402.2301.
[559] Enrico Morgante,et al. On the Validity of the Effective Field Theory for Dark Matter Searches at the LHC, Part II: Complete Analysis for the $s$-channel , 2014 .
[560] K. Wootton,et al. VERTICAL EMITTANCE AT THE QUANTUM LIMIT , 2014 .
[561] Howard E. Haber,et al. Probing wrong-sign Yukawa couplings at the LHC and a future linear collider , 2014, 1403.4736.
[562] Analysis of long-range studies in the LHC - Comparison with the model , 2014, 1410.5946.
[563] Michael Spira,et al. eHDECAY: An implementation of the Higgs effective Lagrangian into HDECAY , 2014, Comput. Phys. Commun..
[564] D. Caruge,et al. Recent Developments in Geant4 , 2014, ICS 2014.
[565] C. Collaboration,et al. Precise determination of the mass of the Higgs boson and tests of compatibility of its couplings with the standard model predictions using proton collisions at 7 and 8 TeV , 2014, 1412.8662.
[566] G. White,et al. High-efficiency acceleration of an electron beam in a plasma wakefield accelerator , 2014, Nature.
[567] Zhen Liu,et al. Supersymmetric exotic decays of the 125 GeV Higgs boson. , 2013, Physical review letters.
[568] Barry M. Dillon,et al. Non-custodial warped extra dimensions at the LHC? , 2014, 1410.7345.
[569] Matthew J. Dolan,et al. A taste of dark matter: flavour constraints on pseudoscalar mediators , 2014, Journal of High Energy Physics.
[570] K. Nakamura,et al. Multi-GeV electron beams from capillary-discharge-guided subpetawatt laser pulses in the self-trapping regime. , 2014, Physical review letters.
[571] David Curtin,et al. Testing electroweak baryogenesis with future colliders , 2014, 1409.0005.
[572] S. Heinemeyer,et al. High-precision predictions for the light CP-even Higgs boson mass of the minimal supersymmetric standard model. , 2014, Physical review letters.
[573] Stephen F. King,et al. Effective theory of a doubly charged singlet scalar: complementarity of neutrino physics and the LHC , 2014, 1406.4137.
[574] Richard D. Ball,et al. Updated Higgs cross section at approximate N3LO , 2014, 1404.3204.
[575] Ulrich Haisch,et al. Simplified dark matter top-quark interactions at the LHC , 2015, 1503.00691.
[576] T. Stefaniak,et al. Status of the Higgs singlet extension of the standard model after LHC run 1 , 2015, 1501.02234.
[577] Shinya Kanemura,et al. Beam dump experiment at future electron–positron colliders , 2015, 1507.02809.
[578] P. Dev,et al. Neutrinos and collider physics , 2015, 1502.06541.
[579] Ian Low,et al. Minimally symmetric Higgs boson , 2014, 1412.2146.
[580] F. Richard,et al. A precise characterisation of the top quark electro-weak vertices at the ILC , 2015, 1505.06020.
[581] S. Dawson,et al. Exploring resonant di-Higgs boson production in the Higgs singlet model , 2014, 1410.5488.
[582] Marco Nardecchia,et al. Millicharge or decay: a critical take on Minimal Dark Matter , 2015, 1512.05353.
[583] D. López-Val,et al. Heavy to light Higgs boson decays at NLO in the singlet extension of the Standard Model , 2015, 1511.08120.
[584] A. Holin. Results from the MINOS Experiment and New MINOS+ Data , 2015, 1507.08564.
[585] Nathaniel Craig,et al. Naturalness in the dark at the LHC , 2015, Journal of High Energy Physics.
[586] Martin Bauer,et al. Flavor from the electroweak scale , 2015, 1506.01719.
[587] Peter Skands,et al. An introduction to PYTHIA 8.2 , 2014, Comput. Phys. Commun..
[588] Yanou Cui,et al. A Review of WIMP Baryogenesis Mechanisms , 2015, 1510.04298.
[589] Jian Wang,et al. Automatic computations at next-to-leading order in QCD for top-quark flavor-changing neutral processes , 2014, 1412.5594.
[590] Gauthier Durieux,et al. Global approach to top-quark flavor-changing interactions , 2014, 1412.7166.
[591] Marco Nardecchia,et al. Accidental matter at the LHC , 2015, 1504.00359.
[592] Margarete Mühlleitner,et al. Singlet extensions of the standard model at LHC Run 2: benchmarks and comparison with the NMSSM , 2015, 1512.05355.
[593] R. Contino,et al. Effective field theory analysis of double Higgs boson production via gluon fusion , 2015 .
[594] M. Thomson. Model-Independent Measurement of the e+e– ! HZ Cross Section at a Future e+e– Linear Collider using Hadronic Z Decays , 2015 .
[595] B. Goddard,et al. FCC-hh Hadron Collider - Parameter Scenarios and Staging Options , 2015 .
[596] K. Arinstein,et al. Measurement of the branching ratio of B¯→D(*)τ−ν¯τ relative to B¯→D(*)ℓ−ν¯ℓ decays with hadronic tagging at Belle , 2015 .
[597] Zheng Wang,et al. Neutrino Physics with JUNO , 2015, 1507.05613.
[598] Oliver Fischer,et al. Higgs production from sterile neutrinos at future lepton colliders , 2015, 1512.06035.
[599] P. Janot. Top-quark electroweak couplings at the FCC-ee , 2015, 1503.01325.
[600] I-A Melzer-Pellmann,et al. Study of vector boson scattering and search for new physics in events with two same-sign leptons and two jets. , 2014, Physical review letters.
[601] Philip Harris,et al. Constraining Dark Sectors at Colliders: Beyond the Effective Theory Approach , 2014, 1411.0535.
[602] Y. Kurihara,et al. Probing New Physics using top quark polarization in the e+e− → tt̄ process at future Linear Colliders∗ , 2015 .
[603] J. S. Marshall,et al. The Pandora software development kit for pattern recognition , 2015, The European Physical Journal C.
[604] Shinya Kanemura,et al. Indirect reach of heavy MSSM Higgs bosons by precision measurements at future lepton colliders , 2015, 1505.03761.
[605] M. Neubert,et al. Exclusive radiative Higgs decays as probes of light-quark Yukawa couplings , 2015, 1505.03870.
[606] B. Shuve,et al. Multilepton and lepton jet probes of sub-weak-scale right-handed neutrinos , 2015, 1504.02470.
[607] David Curtin,et al. Discovering uncolored naturalness in exotic Higgs decays , 2015, 1506.06141.
[608] Liam Moore,et al. Global fit of top quark effective theory to data , 2015, 1506.08845.
[609] H. Gerwig,et al. Mechanical integration studies for the CLIC vertex and inner tracking detectors , 2015 .
[610] A. Sailer,et al. DDG4 A Simulation Framework based on the DD4hep Detector Description Toolkit , 2015 .
[611] Csaba Csaki,et al. Searching for displaced Higgs boson decays , 2015, 1508.01522.
[612] Jure Zupan,et al. Exclusive window onto Higgs Yukawa couplings. , 2014, Physical review letters.
[613] C. Weiland,et al. Imprints of massive inverse seesaw model neutrinos in lepton flavor violating Higgs boson decays , 2014, 1405.4300.
[614] S. Antusch,et al. Testing sterile neutrino extensions of the Standard Model at future lepton colliders , 2015, 1502.05915.
[615] Andrea Thamm,et al. Future tests of Higgs compositeness: direct vs indirect , 2015, 1502.01701.
[616] Howard E. Haber,et al. Complementarity between nonstandard Higgs boson searches and precision Higgs boson measurements in the MSSM , 2014, 1410.4969.
[617] Brandon Murakami,et al. Searching for lepton flavor violation at a future high energy e+e- collider , 2014, 1410.1485.
[618] Andrea Benaglia,et al. Constraints on the pMSSM, AMSB model and on other models from the search for long-lived charged particles in proton–proton collisions at √s = 8 TeV , 2015 .
[619] A. Mertens. New features in Delphes 3 , 2015 .
[620] H. Pas,et al. Higgs → μτ as an indication for S4 flavor symmetry , 2014, 1408.1652.
[621] A. Sousa. First MINOS+ data and new results from MINOS , 2015, 1502.07715.
[622] Emmanuel Stamou,et al. Constraining the charm Yukawa and Higgs-quark coupling universality , 2015, 1503.00290.
[623] Marta Losada,et al. Probing the Type I Seesaw mechanism with displaced vertices at the LHC , 2015, 1505.05880.
[624] Y. Nir,et al. Large BR(h → τ μ) in the MSSM? , 2015, 1511.00979.
[625] David E Kaplan,et al. Cosmological Relaxation of the Electroweak Scale. , 2015, Physical review letters.
[626] Giuliano Panico,et al. The Composite Nambu-Goldstone Higgs , 2015, 1506.01961.
[627] Cheng-Wei Chiang,et al. Flavor-changing neutral-current decays in top-specific variant axion model , 2015, 1507.04354.
[628] C. A. Oxborrow,et al. Planck2015 results , 2015, Astronomy & Astrophysics.
[629] S.M.J. Janssens. Stabilisation and precision pointing quadrupole magnets in the Compact Linear Collider (CLIC) , 2015 .
[630] R.Gill,et al. Long-Baseline Neutrino Facility (LBNF) and Deep Underground Neutrino Experiment (DUNE) Conceptual Design Report Volume 2: The Physics Program for DUNE at LBNF , 2015, 1512.06148.
[631] Andrea Tesi,et al. Singlet-like Higgs bosons at present and future colliders , 2015, 1505.05488.
[632] M. Hartz,et al. Physics potential of a long-baseline neutrino oscillation experiment using a J-PARC neutrino beam and Hyper-Kamiokande , 2014, 1502.05199.
[633] T. Plehn,et al. Measuring the Top Yukawa Coupling at 100 TeV , 2015, 1507.08169.
[634] P. S. Bhupal Dev,et al. Natural Standard Model Alignment in the Two Higgs Doublet Model , 2015, 1503.09140.
[635] M. Buckley,et al. Scalar Simplified Models for Dark Matter , 2014, 1410.6497.
[636] Shigeki Matsumoto,et al. Indirect probe of electroweak-interacting particles at future lepton colliders , 2015, Journal of High Energy Physics.
[637] Martin Bauer,et al. Creating the fermion mass hierarchies with multiple Higgs bosons , 2015, 1512.03458.
[638] Ian Low,et al. Adler’s zero and effective Lagrangians for nonlinearly realized symmetry , 2014, 1412.2145.
[639] A. Roeck,et al. Supersymmetric dark matter after LHC run 1 , 2015, The European Physical Journal C.
[640] S. Hannestad,et al. Active-sterile neutrino oscillations in the early Universe with full collision terms , 2015, 1506.05266.
[641] Zhen Liu,et al. The fate of long-lived superparticles with hadronic decays after LHC Run 1 , 2015, 1503.05923.
[642] Florian Staub,et al. Exploring New Models in All Detail with SARAH , 2015, 1503.04200.
[643] Kentarou Mawatari,et al. Signatures of top flavour-changing dark matter , 2015, 1511.07463.
[644] W. Altmannshofer,et al. Experimental constraints on the coupling of the Higgs boson to electrons , 2015, 1503.04830.
[645] Carroll L. Wainwright,et al. Singlet-catalyzed electroweak phase transitions and precision Higgs boson studies , 2014, 1407.5342.
[646] Jiayin Gu,et al. Beyond Higgs couplings: probing the Higgs with angular observables at future e+e− colliders , 2015, Journal of High Energy Physics.
[647] S. Boogert,et al. Long bunch trains measured using a prototype cavity beam position monitor for the Compact Linear Collider , 2015 .
[648] Kurt Artoos,et al. Linear encoder based low frequency inertial sensor , 2015 .
[649] E Banas,et al. Search for Higgs and Z boson decays to J/ψγ and ϒ(nS)γ with the ATLAS detector , 2015, 1501.03276.
[650] Georges Blanchot,et al. Power pulsing scheme for analog and digital electronics of the vertex detectors at CLIC , 2015 .
[651] P. S. Bhupal Dev,et al. Prospects of Heavy Neutrino Searches at Future Lepton Colliders , 2015, 1503.05491.
[652] James D. Wells,et al. Effective theories of universal theories , 2015, 1510.08462.
[653] Míriam Calvo Gómez,et al. Measurement of the Ratio of Branching Fractions B(¯B0→D*+τ−¯ντ)/B(¯B0→D*+μ−¯νμ) , 2015 .
[654] J. T. Childers,et al. Combined Measurement of the Higgs Boson Mass in $pp$ Collisions at $\sqrt{s}=7$ and 8 TeV with the ATLAS and CMS Experiments , 2015, 1503.07589.
[655] Marcel Vos,et al. A robust jet reconstruction algorithm for high-energy lepton colliders , 2014, 1404.4294.
[656] Yusuke Shimizu,et al. Higgs → μτ in Abelian and non-Abelian flavor symmetry models , 2014, 1412.3671.
[657] A. Borzou. Supersymmetry discovery potential in future LHC and HL-LHC running with the CMS detector , 2015 .
[658] Gino Isidori,et al. Probing the Charm Quark Yukawa Coupling in Higgs+Charm Production. , 2015, Physical review letters.
[659] M. Chala,et al. Observable effects of general new scalar particles , 2014, 1412.8480.
[660] S. Kulis,et al. Capacitively coupled hybrid pixel assemblies for the CLIC vertex detector , 2016 .
[661] Riccardo Rattazzi,et al. Patterns of strong coupling for LHC searches , 2016, Journal of High Energy Physics.
[662] Simone Marzani,et al. On the Higgs cross section at N3LO+N3LL and its uncertainty , 2016, 1603.08000.
[663] E Banas,et al. Search for Higgs and Z Boson Decays to ϕγ with the ATLAS Detector. , 2016, Physical review letters.
[664] Julien Baglio,et al. Heavy neutrino impact on the triple Higgs coupling , 2016, 1603.00879.
[665] M. Decowski,et al. Search for Majorana Neutrinos Near the Inverted Mass Hierarchy Region with KamLAND-Zen. , 2016, Physical review letters.
[666] P. Stoffer,et al. Perturbed Lepton-Specific Two-Higgs-Doublet Model Facing Experimental Hints for Physics beyond the Standard Model. , 2015, Physical review letters.
[667] Jure Zupan,et al. Light quark Yukawa couplings from Higgs kinematics , 2016, 1606.09621.
[668] A. S. Mete,et al. Search for metastable heavy charged particles with large ionization energy loss in pp collisions at s p = 13 TeV using the ATLAS experiment , 2016 .
[669] Emmanuel Stamou,et al. Prospects for measuring the Higgs boson coupling to light quarks , 2015, 1505.06689.
[670] G F Cao,et al. Improved measurement of the reactor antineutrino flux and spectrum at Daya Bay , 2014, Physical review letters.
[671] Stephen F. King,et al. Probing the Origin of Neutrino Masses and Mixings via Doubly Charged Scalars: Complementarity of the Intensity and the Energy Frontiers , 2015, 1512.04391.
[672] A. Semenov,et al. LanHEP - A package for automatic generation of Feynman rules from the Lagrangian. Version 3.2 , 2016, Comput. Phys. Commun..
[673] A. Palazzo,et al. Neutrino masses and mixings: Status of known and unknown 3ν parameters , 2016, 1601.07777.
[674] Marco O. P. Sampaio,et al. The N2HDM under theoretical and experimental scrutiny , 2016, 1612.01309.
[675] J. López‐Pavón,et al. Global constraints on heavy neutrino mixing , 2016, 1605.08774.
[676] Hitoshi Murayama,et al. One-loop matching and running with covariant derivative expansion , 2016, 1604.01019.
[677] Kiyotomo Kawagoe,et al. Experimental tests of particle flow calorimetry , 2015, 1507.05893.
[678] E. Holzer,et al. BLM Crosstalk Studies on the CLIC Two-Beam Module , 2016 .
[679] Zhengkang Zhang,et al. Covariant diagrams for one-loop matching , 2016, 1610.00710.
[680] Yong-chao Zhang,et al. Probing the Higgs sector of the minimal Left-Right symmetric model at future hadron colliders , 2016, 1602.05947.
[681] Paul W. Hess,et al. Methods, analysis, and the treatment of systematic errors for the electron electric dipole moment search in thorium monoxide , 2016, 1612.09318.
[682] Peter Winslow,et al. Singlet-catalyzed electroweak phase transitions in the 100 TeV frontier , 2016, 1605.06123.
[683] Christophe Grojean,et al. On the validity of the effective field theory approach to SM precision tests , 2016, Journal of High Energy Physics.
[684] Luca Silvestrini,et al. Uncovering Mass Generation Through Higgs Flavor Violation , 2015, 1507.07927.
[685] G. C. Branco,et al. What if the masses of the first two quark families are not generated by the standard model Higgs boson , 2016, 1602.08011.
[686] D. Schulte. Application of Advanced Accelerator Concepts for Colliders , 2016 .
[687] V. M. Ghete,et al. Search for lepton flavour violating decays of the Higgs boson to μτ and eτ in proton-proton collisions at s=13$$ \sqrt{s}=13 $$ TeV , 2015, Journal of High Energy Physics.
[688] Fabio Maltoni,et al. Probing the Higgs self coupling via single Higgs production at the LHC , 2016, 1607.04251.
[689] D. Ghosh,et al. Is the Higgs mechanism of fermion mass generation a fact? A Yukawa-less first-two-generation model , 2015, 1508.01501.
[690] W. Klempt,et al. Experimental tests on the air cooling of the CLIC vertex detector , 2016 .
[691] Riccardo Barbieri,et al. B-decay anomalies in a composite leptoquark model , 2016, The European Physical Journal C.
[692] R. T. D'Agnolo,et al. Physics at a 100 TeV pp collider: beyond the Standard Model phenomena , 2016, 1606.00947.
[693] David J. Miller,et al. Constraining top quark eective theory in the LHC , 2016 .
[694] Alberto Guffanti,et al. A facility to search for hidden particles at the CERN SPS: the SHiP physics case , 2015, Reports on progress in physics. Physical Society.
[695] Santosh Kumar Rai,et al. Probing the heavy neutrinos of inverse seesaw model at the LHeC , 2016, 1605.04508.
[696] J. March-Russell,et al. Baryogenesis via particle-antiparticle oscillations , 2016, 1604.00009.
[697] Tevong You,et al. Mixed heavy–light matching in the Universal One-Loop Effective Action , 2016, 1604.02445.
[698] John Ellis,et al. The universal one-loop effective action , 2015, 1512.03003.
[699] A. J. Taylor,et al. Top squark study at the CLIC , 2016 .
[700] A. Randle-conde,et al. Measurements of the Higgs boson production and decay rates and constraints on its couplings from a combined ATLAS and CMS analysis of the LHC pp collision data at √s = 7 and 8 TeV , 2016 .
[701] M. Neubert,et al. Exclusive weak radiative Higgs decays in the standard model and beyond , 2016, 1609.06310.
[702] T. Okugi. ACHIEVEMENT OF SMALL BEAM SIZE AT ATF2 BEAMLINE , 2016 .
[703] Juan Carlos Vasquez,et al. Majorana Higgses at colliders , 2016, 1612.06840.
[704] Jun Gao,et al. Probing light-quark Yukawa couplings via hadronic event shapes at lepton colliders , 2016, 1608.01746.
[705] Maurizio Pierini,et al. Electroweak precision observables and Higgs-boson signal strengths in the Standard Model and beyond: present and future , 2016, 1608.01509.
[706] J. Fuentes-Martín,et al. Integrating out heavy particles with functional methods: a simplified framework , 2016, 1607.02142.
[707] Boruo Xu,et al. Improvement of photon reconstruction in PandoraPFA , 2016, 1603.00013.
[708] E. Holzer,et al. Position Resolution of Optical Fibre-Based Beam Loss Monitors Using Long Electron Pulses , 2016 .
[709] T. Schwetz,et al. Updated fit to three neutrino mixing: exploring the accelerator-reactor complementarity , 2016, Journal of High Energy Physics.
[710] H. Schmickler,et al. A CLIC Damping Wiggler Prototype at ANKA: Commissioning and Preparations for a Beam Dynamics Experimental Program , 2016 .
[711] E. Holzer,et al. A Versatile Beam Loss Monitoring System for CLIC , 2016 .
[712] Michael Spannowsky,et al. Probing MeV to 90 GeV axion-like particles with LEP and LHC , 2015, 1509.00476.
[713] Henning Bahl,et al. Precise prediction for the light MSSM Higgs-boson mass combining effective field theory and fixed-order calculations , 2016, 1608.01880.
[714] Kiwoon Choi,et al. Constraints on relaxion windows , 2016, 1610.00680.
[715] Julien Baglio,et al. The triple Higgs coupling: a new probe of low-scale seesaw models , 2016, 1612.06403.
[716] G. Burdman,et al. Colorless Top Partners , a 125 GeV Higgs , and the Limits on Naturalness , 2016 .
[717] Jakob Salfeld-Nebgen,et al. Search for long-lived charged particles in proton-proton collisions at √s=13 TeV , 2016 .
[718] Katri Huitu,et al. Higgs-flavon mixing and h → μτ , 2016, 1603.06614.
[719] C. Weiland,et al. Enhancement of the lepton flavor violating Higgs boson decay rates from SUSY loops in the inverse seesaw model. , 2015, 1508.04623.
[720] Greg Landsberg,et al. Recommendations on presenting LHC searches for missing transverse energy signals using simplified s-channel models of dark matter , 2016, Physics of the Dark Universe.
[721] K. Nikolopoulos,et al. Physics at a 100 TeV pp collider: Higgs and EW symmetry breaking studies , 2016, 1606.09408.
[722] D. Angal-Kalinin,et al. Developments in the CLARA FEL Test Facility Accelerator Design and Simulations , 2016 .
[723] Lian-tao Wang,et al. Probing the Electroweak Phase Transition with Higgs Factories and Gravitational Waves , 2016, 1608.06619.
[724] Martin Bauer,et al. Analyzing the CP Nature of a New Scalar Particle via S→Zh Decays. , 2016, Physical review letters.
[725] Pavel Fileviez Perez,et al. Simple Left-Right Theory: Lepton Number Violation at the LHC , 2016, 1607.00246.
[726] Mathieu Benoit,et al. Test beam analysis of ultra-thin hybrid pixel detector assemblies with Timepix readout ASICs , 2016 .
[727] T. Suehara,et al. LCFIPlus: A framework for jet analysis in linear collider studies , 2015, 1506.08371.
[728] M. Chala,et al. Unified explanation for dark matter and electroweak baryogenesis with direct detection and gravitational wave signatures , 2016, 1605.08663.
[729] Niloufar Alipour Tehrani,et al. Test-beam measurements and simulation studies of thin pixel sensors for the CLIC vertex detector , 2017 .
[730] T. Koi,et al. Search for lepton-flavour-violating decays of the Higgs and Z bosons with the ATLAS detector , 2017, The European physical journal. C, Particles and fields.
[731] Nathaniel Craig,et al. A Case for Future Lepton Colliders , 2017, 1703.06079.
[732] Fabio Maltoni,et al. Trilinear Higgs coupling determination via single-Higgs differential measurements at the LHC , 2017, 1709.08649.
[733] Gorjan Alagic,et al. #p , 2019, Quantum information & computation.
[734] C. Grojean,et al. The leptonic future of the Higgs , 2017, 1704.02333.
[735] Felix Yu,et al. Phenomenology of enhanced light quark Yukawa couplings and the W±h charge asymmetry , 2016, 1609.06592.
[736] I. Lewis,et al. Non-resonant collider signatures of a singlet-driven electroweak phase transition , 2017, 1704.05844.
[737] H. Jansen,et al. Enhanced Lateral Drift Sensors: Concept and Development , 2017 .
[738] Aqeel Ahmed,et al. Heavy Higgs of the Twin Higgs models , 2017, Journal of High Energy Physics.
[739] D. Schulte,et al. On-line dispersion estimation and correction scheme for the Compact Linear Collider , 2017 .
[740] A. Safonov,et al. Resonant di-Higgs boson production in the b¯bWW channel: Probing the electroweak phase transition at the LHC , 2017, 1701.04442.
[741] M. Wendt,et al. APS : New solution for the high accuracy alignment of accelerator components , 2017 .
[742] Pavel Fileviez Perez,et al. Lepton flavor violation in left-right theory , 2017, 1701.06801.
[743] Giulia Zanderighi,et al. Constraints on the trilinear Higgs coupling from vector boson fusion and associated Higgs production at the LHC , 2016, Journal of High Energy Physics.
[744] Ulrich Haisch,et al. Constraining Light-Quark Yukawa Couplings from Higgs Distributions. , 2016, Physical review letters.
[745] Zhen Liu,et al. A global view on the Higgs self-coupling at lepton colliders , 2017, Journal of High Energy Physics.
[746] Alessandro Strumia,et al. Cosmological implications of Dark Matter bound states , 2017, 1702.01141.
[747] Michael Barnes,et al. Review of stripline beam impedance: application to the extraction kicker for the CLIC damping rings , 2017 .
[748] Marco Farina,et al. Energy helps accuracy: Electroweak precision tests at hadron colliders , 2016, 1609.08157.
[749] L. T. Hue,et al. Lepton flavor violating Higgs boson decays in seesaw models: New discussions , 2017, 1703.00896.
[750] A. Pich,et al. Fingerprints of heavy scales in electroweak effective Lagrangians , 2016, 1609.06659.
[751] M. A. Weber,et al. Higgs physics at the CLIC electron–positron linear collider , 2016, The European Physical Journal C.
[752] J. Santiago,et al. Effective description of general extensions of the Standard Model: the complete tree-level dictionary , 2017, 1711.10391.
[753] Wei Xue,et al. Deciphering the MSSM Higgs mass at future hadron colliders , 2017, 1702.05484.
[754] Ferruccio Feruglio,et al. Revisiting Lepton Flavor Universality in B Decays. , 2016, Physical review letters.
[755] S. Dawson,et al. Standard Model EFT and Extended Scalar Sectors , 2017, 1704.07851.
[756] T. Aushev,et al. Measurement of the τ lepton polarization and R(D∗) in the decay B̄ → Dτν̄τ with one-prong hadronic τ decays at Belle , 2016 .
[757] X. Marcano,et al. Effective lepton flavor violating Hℓiℓj vertex from right-handed neutrinos within the mass insertion approximation , 2016, 1612.09290.
[758] V. Valuev,et al. Constraints on anomalous Higgs boson couplings using production and decay information in the four-lepton final state , 2017 .
[759] Roberto Contino,et al. Helicity selection rules and noninterference for BSM amplitudes , 2016, 1607.05236.
[760] J. Ellis,et al. Dimension-6 operator analysis of the CLIC sensitivity to new physics , 2017, Journal of High Energy Physics.
[761] C. Kilic,et al. Testing the scalar sector of the twin Higgs model at colliders , 2017, 1711.05300.
[762] Andreas Nürnberg,et al. Requirements for the CLIC tracker readout , 2017 .
[763] Laurent Brunetti,et al. What is the best displacement transducer for a seismic sensor? , 2017, 2017 IEEE International Symposium on Inertial Sensors and Systems (INERTIAL).
[764] Paul Conrad Vaagen Thrane,et al. Probing LINEAR Collider Final Focus Systems in SuperKEKB , 2017 .
[765] S. Heinemeyer,et al. Reconciling EFT and hybrid calculations of the light MSSM Higgs-boson mass , 2017, 1706.00346.
[766] Martin Bauer,et al. LHC as an Axion Factory: Probing an Axion Explanation for (g-2)_{μ} with Exotic Higgs Decays. , 2017, Physical review letters.
[767] Michael A. Schmidt,et al. From the Trees to the Forest: A Review of Radiative Neutrino Mass Models , 2017, Front. Phys..
[768] S. Spannagel. Silicon technologies for the CLIC vertex detector , 2017, 1706.00224.
[769] M. Sullivan,et al. Benchmarks for Double Higgs Production in the Singlet Extended Standard Model at the LHC , 2017, 1701.08774.
[770] Toshihiko Ota,et al. Simultaneous explanation of R(D(∗)) and b→sμ+μ−: the last scalar leptoquarks standing , 2017, 1703.09226.
[771] Martin Bauer,et al. Collider probes of axion-like particles , 2017, 1708.00443.
[772] A. Falkowski,et al. Compilation of low-energy constraints on 4-fermion operators in the SMEFT , 2017, 1706.03783.
[773] Marco Nardecchia,et al. Gauge leptoquark as the origin of B-physics anomalies. , 2017, 1708.08450.
[774] Eleonora Di Valentino,et al. Global constraints on absolute neutrino masses and their ordering , 2017, 1703.04471.
[775] M. Misiaszek,et al. Background-free search for neutrinoless double-β decay of 76Ge with GERDA , 2017, Nature.
[776] Mojtaba Mohammadi Najafabadi,et al. Single top quark production as a probe of anomalous tqγ and tqZ couplings at the FCC-ee , 2014, 1408.2090.
[777] H. K. Lou,et al. Searching for Axionlike Particles with Ultraperipheral Heavy-Ion Collisions. , 2016, Physical review letters.
[778] A. Wulzer,et al. Electroweak precision tests in high-energy diboson processes , 2017, 1712.01310.
[779] Markus Frank,et al. DD4hep Based Event Reconstruction , 2017 .
[780] M. B. Gavela,et al. ALPs effective field theory and collider signatures , 2017, The European Physical Journal C.
[781] G. Burt,et al. High Efficiency Klystrons Using the COM Bunching Technique , 2017 .
[782] Tevong You,et al. Extending the Universal One-Loop Effective Action: heavy-light coefficients , 2017, Journal of High Energy Physics.
[783] Andreas Nürnberg,et al. CLICdet: The post-CDR CLIC detector model , 2017 .
[784] Christophe Grojean,et al. A global view on the Higgs self-coupling , 2017, 1704.01953.
[785] Jonathan M. Cornell,et al. Global fits of GUT-scale SUSY models with GAMBIT , 2017, The European Physical Journal C.
[786] J. Zupan,et al. Dark sectors and enhanced h → τ μ transitions , 2017, 1701.08767.
[787] Marco O. P. Sampaio,et al. Phenomenological comparison of models with extended Higgs sectors , 2017, Journal of High Energy Physics.
[788] P. Chiggiato,et al. Shape-memory alloy rings as tight couplers between ultrahigh-vacuum pipes: Design and experimental assessment , 2017 .
[789] Brian Shuve,et al. Searching for Axionlike Particles in Flavor-Changing Neutral Current Processes. , 2017, Physical review letters.
[790] Ferruccio Feruglio,et al. On the importance of electroweak corrections for B anomalies , 2017, Journal of High Energy Physics.
[791] Katja Krüger,et al. Software compensation in particle flow reconstruction , 2017, The European Physical Journal C.
[792] S. Kulis,et al. Characterisation of capacitively coupled HV/HR-CMOS sensor chips for the CLIC vertex detector , 2017 .
[793] Gino Isidori,et al. B-physics anomalies: a guide to combined explanations , 2017, Journal of High Energy Physics.
[794] A. D. Plascencia,et al. Simplified models of dark matter with a long-lived co-annihilation partner , 2017, 1702.00750.
[795] M. Pierini,et al. The Global Electroweak and Higgs Fits in the LHC era , 2017, 1710.05402.
[796] Steven Green,et al. Calorimetry at a future Linear Collider , 2017 .
[797] R. Sarpong,et al. Bio-inspired synthesis of xishacorenes A, B, and C, and a new congener from fuscol† †Electronic supplementary information (ESI) available. See DOI: 10.1039/c9sc02572c , 2019, Chemical science.
[798] Kozhuharov,et al. Dark Sector Physics with a Primary Electron Beam Facility at CERN , 2018 .
[799] S. Pascoli,et al. W + W − H production at lepton colliders: a new hope for heavy neutral leptons , 2018 .
[800] D. Schulte,et al. Integrated simulation of dynamic effects for the 380 GeV CLIC design , 2018 .
[801] S. M. Etesami,et al. Search for an exotic decay of the Higgs boson to a pair of light pseudoscalars in the final state with two b quarks and two τ leptons in proton–proton collisions at √s = 13 TeV , 2018 .
[802] F. Toral,et al. Longitudinally Variable Field Dipole Design Using Permanent Magnets For CLIC Damping Rings , 2018, IEEE Transactions on Applied Superconductivity.
[803] I-A Melzer-Pellmann,et al. Observation of Electroweak Production of Same-Sign W Boson Pairs in the Two Jet and Two Same-Sign Lepton Final State in Proton-Proton Collisions at sqrt[s]=13 TeV. , 2017, Physical review letters.
[804] Laurent Brunetti,et al. Vibration Control Using a Dedicated Inertial Sensor , 2018, IEEE Sensors Journal.
[805] Riccardo Barbieri,et al. B-decay anomalies in Pati–Salam SU(4) , 2017, The European Physical Journal C.
[806] Hsin-Chia Cheng,et al. Singlet scalar top partners from accidental supersymmetry , 2018, Journal of High Energy Physics.
[807] R. Simoniello,et al. Jet reconstruction at high-energy electron–positron colliders , 2018, The European Physical Journal C.
[808] Y. Papaphilippou,et al. THE STRIPLINE KICKER PROTOTYPE FOR THE CLIC DAMPING RINGS AT ALBA: INSTALLATION, COMMISSIONING AND BEAM CHARACTERISATION , 2018 .
[809] Simon Spannagel,et al. A detector for CLIC: main parameters and performance , 2018, 1812.07337.
[810] D. Schulte,et al. Beam-based beamline element alignment for the main linac of the 380 GeV stage of CLIC , 2018 .
[811] Szymon Bugiel,et al. Test-beam results of a SOI pixel-detector prototype , 2018, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.
[812] Simon Spannagel,et al. Allpix2: A modular simulation framework for silicon detectors , 2018, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.
[813] D. Alesini,et al. RF Design of the X-band Linac for the EuPRAXIA@SPARC_LAB Project , 2018 .
[814] Thomas Hellman. PHIL , 2018, Encantado.
[815] B. C. Allanach,et al. Uncertainties in the lightest $$CP$$CP even Higgs boson mass prediction in the minimal supersymmetric standard model: fixed order versus effective field theory prediction , 2018, The European Physical Journal C.
[816] Admir Greljo,et al. Leptoquark toolbox for precision collider studies , 2018, 1801.07641.
[817] W. Kilian,et al. New Developments in WHIZARD Version 2.6 , 2018, 1801.08034.
[818] P. S. Bhupal Dev,et al. Doubly-charged scalars in the type II seesaw mechanism: Fundamental symmetry tests and high-energy searches , 2018, Physical Review D.
[819] G. Moortgat-Pick,et al. Sensitivity of the ILC to light Higgs masses , 2018, 1801.09662.
[820] B. Shepherd. Radiation damage to permanent magnet materials: A survey of experimental results , 2018 .
[821] D. Marzocca,et al. Addressing the B-physics anomalies in a fundamental Composite Higgs model , 2018, Journal of High Energy Physics.
[822] Aleksander Filip Żarnecki,et al. Benchmarking the Inert Doublet Model for e+e− colliders , 2018, Journal of High Energy Physics.
[823] Hiroshi Okada,et al. Discriminating leptonic Yukawa interactions with doubly charged scalar at the ILC , 2017, 1702.03396.
[824] Sahal Yacoob,et al. Search for squarks and gluinos in final states with jets and missing transverse momentum using 36 fb$^{-1}$ of $\sqrt{s}$=13 TeV $pp$ collision data with the ATLAS detector , 2017, 1712.02332.
[825] Andrea Tesi,et al. Fusing vectors into scalars at high energy lepton colliders , 2018, Journal of High Energy Physics.
[826] C. Beggan,et al. Natural sources of geomagnetic field variations , 2018 .
[827] E. Leogrande. Conformal tracking for the CLIC detector , 2018 .
[828] F. Marcellini,et al. Stabilization of the arrival time of a relativistic electron beam to the 50 fs level , 2018, 1802.03220.
[829] G. Durieux,et al. Probing top-quark couplings indirectly at Higgs factories , 2018, Chinese Physics C.
[830] S. Stapnes,et al. Machine Parameters and Projected Luminosity Performance of Proposed Future Colliders at CERN , 2018, 1810.13022.
[831] Gino Isidori,et al. A three-site gauge model for flavor hierarchies and flavor anomalies , 2017, 1712.01368.
[832] J. Gayde,et al. The New CLIC Main Linac Installation and Alignment Strategy , 2018 .
[833] Marcel Vos,et al. Global and optimal probes for the top-quark effective field theory at future lepton colliders , 2018, Journal of High Energy Physics.
[834] E. Brondolin,et al. Optimization of timing selections at 380 GeV CLIC , 2018, 1811.00466.
[835] Pankaj Agrawal,et al. Probing the type-II seesaw mechanism through the production of Higgs bosons at a lepton collider , 2018, Physical Review D.
[836] W. Lohmann,et al. Measurement of shower development and its Molière radius with a four-plane LumiCal test set-up , 2017, 1705.03885.
[837] W. Bernreuther,et al. CP-violating top quark couplings at future linear $$e^+e^-$$e+e- colliders , 2017, 1710.06737.
[838] M. Barnes,et al. Demonstration of Feasibility of the CLIC Damping Ring Extraction Kicker Modulators , 2018 .
[839] James M. Cline,et al. B decay anomalies and dark matter from vectorlike confinement , 2017, 1710.02140.
[840] Aidan Robson,et al. Updated CLIC luminosity staging baseline and Higgs coupling prospects , 2018, 1812.01644.
[841] Tuning of the CLIC 380 GeV Final-Focus System with Static Imperfections , 2018 .
[842] Fabio Maltoni,et al. Constraining the Higgs self-couplings at e+e− colliders , 2018, Journal of High Energy Physics.
[843] T. Plehn,et al. Interpreting top-quark LHC measurements in the standard-model effective field theory : arXiv , 2018, 1802.07237.
[844] Giuliano Panico,et al. Diboson interference resurrection , 2017, 1708.07823.
[845] C. Collaboration,et al. Search for a new scalar resonance decaying to a pair of Z bosons in proton-proton collisions at $\sqrt{s} =$ 13 TeV , 2018, 1804.01939.
[846] Matthew Daniel Buckland. Simulation and evaluation of HV-CMOS pixel sensors for the CLIC vertex detector , 2018 .
[847] A. Roeck,et al. Likelihood analysis of the pMSSM11 in light of LHC 13-TeV data , 2017, The European Physical Journal C.
[848] Magdalena Munker,et al. Test beam and simulation studies on High Resistivity CMOS pixel sensors , 2018 .
[849] M. Volpi,et al. High Power Conditioning of X-Band RF Components , 2018 .
[850] Elina Fuchs,et al. Relaxion and light (pseudo)scalars at the HL-LHC and lepton colliders , 2018, Journal of High Energy Physics.
[851] Gino Isidori,et al. Low-energy signatures of the PS3 model: from B-physics anomalies to LFV , 2018, Journal of High Energy Physics.
[852] G. Durieux,et al. The top-quark window on compositeness at future lepton colliders , 2018, Journal of High Energy Physics.
[853] Adrian Fiergolski,et al. Performance evaluation of thin active-edge planar sensors for the CLIC vertex detector , 2019 .
[854] Jonas Wittbrodt,et al. Models with extended Higgs sectors at future e+e− colliders , 2018, Physical Review D.
[855] I. Vila,et al. Top-quark physics at the CLIC electron-positron linear collider , 2018, Journal of High Energy Physics.
[856] V. Sorokin. Smirnov , 2019, 21.
[857] Aleksander Filip Żarnecki,et al. Exploring inert scalars at CLIC , 2018, Journal of High Energy Physics.
[858] T. Aushev,et al. The Belle II Physics Book , 2018, Progress of Theoretical and Experimental Physics.
[859] Felix Sefkow,et al. A highly granular SiPM-on-tile calorimeter prototype , 2018, Journal of Physics: Conference Series.
[860] Rafael Ballabriga,et al. Design of a monolithic HR-CMOS sensor chip for the CLIC silicon tracker , 2019, Proceedings of Topical Workshop on Electronics for Particle Physics — PoS(TWEPP2018).
[861] Veta Ghenescu,et al. Moliere radius measurement using a compact prototype of LumiCal in a test set-up , 2018, Proceedings of The 39th International Conference on High Energy Physics — PoS(ICHEP2018).
[862] Adv , 2019, International Journal of Pediatrics and Adolescent Medicine.
[863] Simon Spannagel,et al. Technologies for future vertex and tracking detectors at CLIC , 2018, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.
[864] Martin Bauer,et al. Axion-like particles at future colliders , 2018, The European Physical Journal C.
[865] Matthew McCullough,et al. Long-lived particles at the energy frontier: the MATHUSLA physics case , 2018, Reports on progress in physics. Physical Society.
[866] Walter Snoeys,et al. Comparison of small collection electrode CMOS pixel sensors with partial and full lateral depletion of the high-resistivity epitaxial layer , 2019, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.
[867] Andreas Nürnberg,et al. A high-voltage pixel sensor for the ATLAS upgrade , 2019, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.
[868] S. Kulis,et al. Tracking performance and simulation of capacitively coupled pixel detectors for the CLIC vertex detector , 2019, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.
[869] Ulrike Schnoor,et al. A DELPHES card for the CLIC detector. , 2019, 1909.12728.
[870] Patrick J. Fox,et al. Dark Matter benchmark models for early LHC Run-2 Searches: Report of the ATLAS/CMS Dark Matter Forum , 2015, Physics of the Dark Universe.
[871] B. Holzer,et al. Beam Dynamics , 2020, Particle Physics Reference Library.
[872] Tsuyoshi Murata,et al. {m , 1934, ACML.
[873] Front , 2020, 2020 Fourth World Conference on Smart Trends in Systems, Security and Sustainability (WorldS4).
[874] U. Schnoor,et al. Double Higgs boson production and Higgs self-coupling extraction at CLIC , 2019, The European Physical Journal C.
[875] Danna Zhou,et al. d. , 1840, Microbial pathogenesis.
[876] P. Alam. ‘W’ , 2021, Composites Engineering.
[877] P. Alam. ‘T’ , 2021, Composites Engineering: An A–Z Guide.
[878] P. Alam. ‘Z’ , 2021, Composites Engineering: An A–Z Guide.
[879] P. Alam. ‘G’ , 2021, Composites Engineering: An A–Z Guide.
[880] P. Alam,et al. H , 1887, High Explosives, Propellants, Pyrotechnics.
[881] P. Alam. ‘L’ , 2021, Composites Engineering: An A–Z Guide.
[882] P. Alam. ‘O’ , 2021, Composites Engineering: An A–Z Guide.
[883] P. Alam. ‘A’ , 2021, Composites Engineering: An A–Z Guide.
[884] P. Alam. ‘N’ , 2021, Composites Engineering: An A–Z Guide.
[885] P. Alam. ‘E’ , 2021, Composites Engineering: An A–Z Guide.
[886] P. Alam. ‘S’ , 2021, Composites Engineering: An A–Z Guide.
[887] P. Alam,et al. R , 1823, The Herodotus Encyclopedia.
[888] MAT , 2020, Encyclopedic Dictionary of Archaeology.
[889] K. Saito. THEORETICAL CRITICAL FIELD IN RF APPLICATION , 2022 .