Simplified models vs. effective field theory approaches in dark matter searches

[1]  Y. Soreq,et al.  Colorful Twisted Top Partners and Partnerium at the LHC , 2017, 1704.03393.

[2]  M. P. Casado,et al.  Measurement of the kt splitting scales in Z → ℓℓ events in pp collisions at s=8$$ \sqrt{s}=8 $$ TeV with the ATLAS detector , 2017 .

[3]  J. P. Ellis TikZ-Feynman: Feynman diagrams with TikZ , 2016, Comput. Phys. Commun..

[4]  F. Kahlhoefer,et al.  Constraints on Z 0 models from LHC dijet searches , 2016 .

[5]  F. Kahlhoefer,et al.  Constraints on Z′ models from LHC dijet searches and implications for dark matter , 2016, 1605.07940.

[6]  M. Rameez,et al.  Complementarity of DM searches in a consistent simplified model: the case of Z′ , 2016, 1605.06513.

[7]  P. Panci,et al.  You can hide but you have to run: direct detection with vector mediators , 2016, 1605.04917.

[8]  P. Gondolo WIMP Dark Matter , 2016 .

[9]  R. Trotta,et al.  UvA-DARE (Digital Academic Repository) Effective field theory of dark matter: a global analysis , 2016 .

[10]  J. Gramling,et al.  Collide and conquer: constraints on simplified dark matter models using mono-X collider searches , 2016, 1603.01366.

[11]  F. Kahlhoefer,et al.  On Mono-W Signatures in Spin-1 Simplified Models , 2016, 1603.01267.

[12]  J. T. Childers,et al.  Erratum to: Study of the spin and parity of the Higgs boson in diboson decays with the ATLAS detector , 2016 .

[13]  F. Kahlhoefer,et al.  Implications of unitarity and gauge invariance for simplified dark matter models , 2016, Journal of High Energy Physics.

[14]  Andrea Benaglia,et al.  Search for new phenomena in monophoton final states in proton–proton collisions at s=8 TeV , 2016 .

[15]  A. Iyer,et al.  Constraints on dark matter annihilation to fermions and a photon , 2016, Journal of High Energy Physics.

[16]  Jin Min Yang,et al.  Collider Signatures of Higgs-portal Scalar Dark Matter , 2016, 1601.06232.

[17]  T. Tait,et al.  Triplet-quadruplet dark matter , 2016, 1601.01354.

[18]  P. O. Hulth,et al.  Improved limits on dark matter annihilation in the Sun with the 79-string IceCube detector and implications for supersymmetry , 2016, 1601.00653.

[19]  R. Webb,et al.  Improved Limits on Scattering of Weakly Interacting Massive Particles from Reanalysis of 2013 LUX Data. , 2015, Physical review letters.

[20]  M. Buckley,et al.  Constraining the strength andCPstructure of dark production at the LHC: The associated top-pair channel , 2015, 1511.06451.

[21]  C. Wiebusch,et al.  Constraints on Majorana Dark Matter from the LHC and IceCube , 2015, 1509.07867.

[22]  P. Machado,et al.  Global constraints on vector-like WIMP effective interactions , 2015, 1509.01587.

[23]  J. No,et al.  Looking through the pseudoscalar portal into dark matter: Novel mono-Higgs and mono-Z signatures at the LHC , 2015, 1509.01110.

[24]  C. Collaboration,et al.  Search for New Phenomena in Monophoton Final States in Proton–proton Collisions at √s = 8 TeV , 2014, 1410.8812.

[25]  N. Bell,et al.  Mono-W dark matter signals at the LHC: simplified model analysis , 2015, 1512.00476.

[26]  Kentarou Mawatari,et al.  Signatures of top flavour-changing dark matter , 2015, 1511.07463.

[27]  M. Tytgat,et al.  Signatures from scalar dark matter with a vector-like quark mediator , 2015, 1511.04452.

[28]  M. Cirelli Status of (Direct and) Indirect Dark Matter searches , 2015, 1511.02031.

[29]  M. B. Gavela,et al.  Non-linear Higgs portal to Dark Matter , 2015, 1511.01099.

[30]  K. Tuominen,et al.  A minimal model for SU(N ) vector dark matter , 2015, Journal of High Energy Physics.

[31]  M. Hoferichter,et al.  Roy-Steiner-equation analysis of pion-nucleon scattering , 2015, 1510.06039.

[32]  P. Catastini,et al.  Summary of the searches for squarks and gluinos using s=8$$ \sqrt{s}=8 $$ TeV pp collisions with the ATLAS experiment at the LHC , 2015 .

[33]  F. Kahlhoefer,et al.  Implications of unitarity and gauge invariance for simplified dark matter models , 2015, 1510.02110.

[34]  I. A. Monroy,et al.  Measurement of the forward-backward asymmetry in Z/γ∗ → μ+μ− decays and determination of the effective weak mixing angle , 2015, 1509.07645.

[35]  M. Neubert,et al.  Higher-order QCD predictions for dark matter production in mono-Z searches at the LHC , 2015, Journal of High Energy Physics.

[36]  Huayong Han,et al.  New constraints on Higgs-portal scalar dark matter , 2015, 1509.01765.

[37]  P. Scott,et al.  Erratum: Update on scalar singlet dark matter (Physical Review D - Particles, Fields, Gravitation and Cosmology (2013) 88 (055025)) , 2015 .

[38]  K. Mawatari,et al.  Higher-order QCD predictions for dark matter production at the LHC in simplified models with s-channel mediators , 2015, The European physical journal. C, Particles and fields.

[39]  J. T. Childers,et al.  Search for production of vector-like quark pairs and of four top quarks in the lepton-plus-jets final state in pp collisions at s=8$$ \sqrt{s}=8 $$ TeV with the ATLAS detector , 2015 .

[40]  O. Mattelaer,et al.  Dark-matter production through loop-induced processes at the LHC: the s-channel mediator case , 2015, The European physical journal. C, Particles and fields.

[41]  J. T. Childers,et al.  Search for production of vector-like quark pairs and of four top quarks in the lepton-plus-jets final state in pp collisions at s=8\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{ , 2015, Journal of High Energy Physics.

[42]  A. Alves,et al.  Searches for dark matter at the LHC: A multivariate analysis in the mono-Z channel , 2015, 1507.08294.

[43]  H. S. Bansil,et al.  Summary of the searches for squarks and gluinos using s=8$$ \sqrt{s}=8 $$ TeV pp collisions with the ATLAS experiment at the LHC , 2015, 1507.05525.

[44]  Linda M. Carpenter,et al.  Indirect Detection Constraints on the Model Space of Dark Matter Effective Theories , 2015, 1506.08841.

[45]  M. Cannoni Relativistic and nonrelativistic annihilation of dark matter: a sanity check using an effective field theory approach , 2015, 1506.07475.

[46]  A. Alves,et al.  Dirac-fermionic dark matter in U(1)X models , 2015, Journal of High Energy Physics.

[47]  U. Meißner,et al.  High-Precision Determination of the Pion-Nucleon σ Term from Roy-Steiner Equations. , 2015, Physical review letters.

[48]  K. Tuominen,et al.  A minimal model for SU(N ) vector dark matter , 2015, Journal of High Energy Physics.

[49]  A. S. Mete,et al.  Simplified Models for Dark Matter Searches at the LHC , 2015, 1506.03116.

[50]  Scoap,et al.  Search for dark matter, extra dimensions, and unparticles in monojet events in proton–proton collisions at s=8 TeV , 2015 .

[51]  Andrea Benaglia,et al.  Search for physics beyond the standard model in final states with a lepton and missing transverse energy in proton-proton collisions at √s=8 TeV , 2015 .

[52]  T. Schwetz,et al.  Halo-independent tests of dark matter direct detection signals: local DM density, LHC, and thermal freeze-out , 2015, 1505.05710.

[53]  A. Mariotti,et al.  Singlet-Doublet model: dark matter searches and LHC constraints , 2015, 1505.03867.

[54]  T. Tuuva,et al.  Search for dark matter, extra dimensions, and unparticles in monojet events in proton–proton collisions at $$\sqrt{s} = 8$$s=8$$\,{\mathrm{TeV}}\,$$TeV , 2015 .

[55]  K. Ghorbani,et al.  Two-portal Dark Matter , 2015, 1504.03610.

[56]  T. Tuuva,et al.  Search for the production of dark matter in association with top-quark pairs in the single-lepton final state in proton-proton collisions at sqrt(s) = 8 TeV , 2015, 1504.03198.

[57]  J. Bourbeau,et al.  Dark matter searches with a mono-Z′ jet , 2015, 1504.01395.

[58]  N. Bell,et al.  Dark matter at the LHC: Effective field theories and gauge invariance , 2015, 1503.07874.

[59]  F. Kahlhoefer,et al.  Constraining dark sectors with monojets and dijets , 2015, 1503.05916.

[60]  M. Hoferichter,et al.  Chiral power counting of one- and two-body currents in direct detection of dark matter , 2015, 1503.04811.

[61]  A. Ibarra,et al.  Signatures of Majorana dark matter with t-channel mediators , 2015, 1503.01500.

[62]  P. Catastini,et al.  Search for dark matter in events with heavy quarks and missing transverse momentum in $$pp$$pp collisions with the ATLAS detector , 2015 .

[63]  Karl Nordström,et al.  Mapping monojet constraints onto simplified dark matter models , 2015, 1502.05721.

[64]  Andrea Wulzer,et al.  Robust collider limits on heavy-mediator Dark Matter , 2015, 1502.04701.

[65]  R. Nagai,et al.  Effective theories for dark matter nucleon scattering , 2015, 1502.02244.

[66]  P. Catastini,et al.  Search for new phenomena in final states with an energetic jet and large missing transverse momentum in pp collisions at root s=8 TeV with the ATLAS detector , 2015, 1502.01518.

[67]  A. Alves,et al.  Dark matter complementarity and the Z ′ portal , 2015, 1501.03490.

[68]  U. Haisch,et al.  LHC constraints on gauge boson couplings to dark matter , 2015, 1501.00907.

[69]  W. Haxton,et al.  Nuclear structure aspects of spin-independent WIMP scattering off xenon , 2014, 1412.6091.

[70]  R. Sagdeev,et al.  Precision Measurement of the Proton Flux in Primary Cosmic Rays from Rigidity 1 GV to 1.8 TV with the Alpha Magnetic Spectrometer on the International Space Station. , 2014, Physical review letters.

[71]  Philip Harris,et al.  Constraining Dark Sectors at Colliders: Beyond the Effective Theory Approach , 2014, 1411.0535.

[72]  M. Buckley,et al.  Scalar Simplified Models for Dark Matter , 2014, 1410.6497.

[73]  T. Slatyer,et al.  Heavy dark matter annihilation from effective field theory. , 2014, Physical review letters.

[74]  L. Gouskos,et al.  Interplay and Characterization of Dark Matter Searches at Colliders and in Direct Detection Experiments , 2014, 1409.4075.

[75]  K. Ghorbani Fermionic dark matter with pseudo-scalar Yukawa interaction , 2014, 1408.4929.

[76]  J. T. Childers,et al.  Search for new particles in events with one lepton and missing transverse momentum in pp collisions at s$$ \sqrt{s} $$ = 8 TeV with the ATLAS detector , 2016 .

[77]  Yu-feng Zhou,et al.  Light mediators in dark matter direct detections , 2014, 1412.6220.

[78]  B. Grzadkowski,et al.  Classification of effective operators for interactions between the Standard Model and dark matter , 2014, 1412.0520.

[79]  H. K. Lou,et al.  The Higgs portal above threshold , 2014, 1412.0258.

[80]  M. Procura,et al.  Connecting dark matter UV complete models to direct detection rates via effective field theory , 2014, 1411.3342.

[81]  Charlie Isaksson,et al.  Search for new phenomena in events with a photon and missing transverse momentum in pp collisions at root s = 8 TeV with the ATLAS detector , 2014 .

[82]  Atlas Collaboration Search for dark matter in events with heavy quarks and missing transverse momentum in $pp$ collisions with the ATLAS detector , 2014, 1410.4031.

[83]  A. Boveia,et al.  Simplified Models for Dark Matter and Missing Energy Searches at the LHC , 2014, 1409.2893.

[84]  R. Sagdeev,et al.  High statistics measurement of the positron fraction in primary cosmic rays of 0.5-500 GeV with the alpha magnetic spectrometer on the international space station. , 2014, Physical review letters.

[85]  U. Haisch,et al.  Dark matter direct detection constraints from gauge bosons loops , 2014, 1408.5046.

[86]  J. Lykken,et al.  Light dark matter, naturalness, and the radiative origin of the electroweak scale , 2014, 1408.3429.

[87]  C. Collaboration,et al.  Search for physics beyond the standard model in final states with a lepton and missing transverse energy in proton-proton collisions at sqrt(s) = 8 TeV , 2014, 1408.2745.

[88]  Matthew J. Dolan,et al.  Characterising dark matter searches at colliders and direct detection experiments: vector mediators , 2014, 1407.8257.

[89]  F. Taylor Search for Dark Matter in Events with a Z Boson and Missing Transverse Momentum in pp Collisions at √s = 8 TeV with the ATLAS Detector , 2014 .

[90]  M. Fairbairn,et al.  Complementarity of dark matter searches at resonance , 2014, 1406.3288.

[91]  M. Dorigo,et al.  Search for CP violation in $D^{\pm}\rightarrow K^0_{\mathrm{S}} K^{\pm}$ and $D^{\pm}_{s}\rightarrow K^0_{\mathrm{S}} \pi^{\pm}$ decays , 2014, 1406.2624.

[92]  M. Tytgat,et al.  Bremsstrahlung and gamma ray lines in 3 scenarios of dark matter annihilation , 2014, 1405.6921.

[93]  A. Ibarra,et al.  Sharp Gamma-ray Spectral Features from Scalar Dark Matter Annihilations , 2014, 1405.6917.

[94]  A. Nelson,et al.  A Renormalizable Model for the Galactic Center Gamma Ray Excess from Dark Matter Annihilation , 2014, 1404.3716.

[95]  Brian Batell,et al.  Flavored Dark Matter and the Galactic Center Gamma-Ray Excess , 2014, 1404.1373.

[96]  David W. Miller,et al.  Search for dark matter in events with aZboson and missing transverse momentum inppcollisions ats=8TeVwith the ATLAS detector , 2014 .

[97]  A. Dedes,et al.  Doublet-Triplet Fermionic Dark Matter , 2014, 1403.7744.

[98]  Yasuhiro Yamamoto,et al.  Unitarity bounds on dark matter effective interactions at LHC , 2014, 1403.6610.

[99]  D. Whiteson,et al.  Collider Bounds on Indirect Dark Matter Searches: The $WW$ Final State , 2014, 1403.6734.

[100]  A. Alves,et al.  Effective field theory approach to the Galactic Center gamma-ray excess , 2014 .

[101]  V. Khoze,et al.  Higgs vacuum stability from the dark matter portal , 2014, 1403.4953.

[102]  Y. Mambrini,et al.  Axial dark matter: The case for an invisible Z′ , 2014, 1403.4837.

[103]  A. Ibarra,et al.  Majorana dark matter with a coloured mediator: collider vs direct and indirect searches , 2014, 1403.4634.

[104]  Lian-tao Wang,et al.  Mono-Higgs detection of dark matter at the LHC , 2014, 1402.7074.

[105]  A. Simone,et al.  Benchmarks for dark matter searches at the LHC , 2014, 1402.6287.

[106]  Alessandro Vichi,et al.  Monojet versus the rest of the world I: t-channel models , 2014, 1402.2285.

[107]  M. Procura,et al.  New constraints on dark matter effective theories from standard model loops. , 2014, Physical review letters.

[108]  Andrea Benaglia,et al.  Inclusive search for a vector-like T quark with charge 2/3 in pp collisions at √s=8 TeV , 2014 .

[109]  R M Buckingham,et al.  Search for dark matter in events with a hadronically decaying W or Z boson and missing transverse momentum in pp collisions at √s=8  TeV with the ATLAS detector. , 2014, Physical review letters.

[110]  M. Tytgat,et al.  Invisible Z′ and dark matter: LHC vs LUX constraints , 2013, 1401.0221.

[111]  M. Hoferichter,et al.  Accurate evaluation of hadronic uncertainties in spin-independent WIMP-nucleon scattering: Disentangling two- and three-flavor effects , 2013, 1312.4951.

[112]  D. Whiteson,et al.  Mono-Higgs-boson: A new collider probe of dark matter , 2013, 1312.2592.

[113]  W. Porod,et al.  Higher dimensional effective operators for direct dark matter detection , 2013, 1312.0009.

[114]  Ulrich Haisch,et al.  Determining the structure of dark-matter couplings at the LHC , 2013, 1311.7131.

[115]  N. Bell,et al.  Co-annihilating Dark Matter: Effective Operator Analysis and Collider Phenomenology , 2013, 1311.6169.

[116]  C. Cheung,et al.  Simplified models of mixed dark matter , 2013, 1311.5896.

[117]  V. Cirigliano,et al.  Shining LUX on isospin-violating dark matter beyond leading order , 2013, 1311.5886.

[118]  A. Petrov,et al.  Searching for dark matter at LHC with Mono-Higgs production , 2013, 1311.1511.

[119]  E. Kolb,et al.  Gamma-ray constraints on dark-matter annihilation to electroweak gauge and Higgs bosons , 2013, 1310.6047.

[120]  Matthew J. Dolan,et al.  Beyond effective field theory for dark matter searches at the LHC , 2013, 1308.6799.

[121]  Lian-tao Wang,et al.  Dark matter with t -channel mediator: A simple step beyond contact interaction , 2013, 1308.0592.

[122]  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.

[123]  Myeonghun Park,et al.  Gravity-mediated (or composite) dark matter , 2013, 1306.4107.

[124]  A. Pukhov,et al.  micrOMEGAs_3: A program for calculating dark matter observables , 2013, Computer Physics Communications.

[125]  C. A. Oxborrow,et al.  Planck 2013 results. XVI. Cosmological parameters , 2013, 1303.5076.

[126]  J. Gramling,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 .

[127]  ATLAS NOTE Sensitivity to WIMP Dark Matter in the Final States Containing Jets and Missing Transverse Momentum with the ATLAS Detector at 14 TeV LHC , 2014 .

[128]  A. Alves,et al.  The dark Z′ portal: direct, indirect and collider searches , 2013, 1312.5281.

[129]  F. Kahlhoefer,et al.  QCD effects in mono-jet searches for dark matter , 2013, 1310.4491.

[130]  J. Zupan,et al.  Constraining Higgs mediated dark matter interactions , 2013, 1309.3561.

[131]  J. Menendez,et al.  Signatures of Dark Matter Scattering Inelastically Off Nuclei , 2013, 1309.0825.

[132]  T. Tait,et al.  Simplified models for dark matter interacting with quarks , 2013, 1308.2679.

[133]  V. Tioukov,et al.  New results on νμ → ντ appearance with the OPERA experiment in the CNGS beam , 2013, 1308.2553.

[134]  J. Berger,et al.  Fermion portal dark matter , 2013, 1308.0612.

[135]  J. Kile Flavored Dark Matter: A Review , 2013, 1308.0584.

[136]  Hong-jian He,et al.  Natural electroweak symmetry breaking from scale invariant Higgs mechanism , 2013, 1308.0295.

[137]  Spencer Chang,et al.  Effective WIMPs , 2013, 1307.8120.

[138]  M. Tytgat,et al.  Scalar dark matter models with significant internal bremsstrahlung , 2013, 1307.6480.

[139]  T. Tait,et al.  The Pitfalls of Dark Crossings , 2013, 1307.6277.

[140]  P. Panci,et al.  Tools for model-independent bounds in direct dark matter searches , 2013, 1307.5955.

[141]  T. Tait,et al.  Pitfalls of dark matter crossing symmetries , 2013 .

[142]  Takashi Toma Internal bremsstrahlung signature of real scalar dark matter and consistency with thermal relic density. , 2013, Physical review letters.

[143]  Q. Yan,et al.  Detecting interactions between dark matter and photons at high energy $e^+e^-$ colliders , 2013, 1307.5740.

[144]  M. Cliche,et al.  Effective theory of self-interacting dark matter , 2013, 1307.1129.

[145]  P. Scott,et al.  Update on scalar singlet dark matter , 2013, 1306.4710.

[146]  A. Strumia,et al.  Dynamical generation of the weak and Dark Matter scale , 2013, 1306.2329.

[147]  A. Schwenk,et al.  Large-scale nuclear structure calculations for spin-dependent WIMP scattering with chiral effective field theory currents , 2013, 1304.7684.

[148]  Edward W. Kolb,et al.  Probing dark matter couplings to top and bottom quarks at the LHC , 2013, 1303.6638.

[149]  T. Hambye,et al.  Effective theory of dark matter decay into monochromatic photons and its implications: Constraints from associated cosmic-ray emission , 2013, 1303.4423.

[150]  M. Boglione,et al.  Simultaneous extraction of transversity and Collins functions from new SIDIS and e+e- data , 2013 .

[151]  M. Boglione,et al.  Simultaneous extraction of transversity and Collins functions from new semi-inclusive deep inelastic scattering and e+e- data , 2013, 1303.3822.

[152]  Jamie Tattersall,et al.  Contact interactions probe effective dark-matter models at the LHC , 2013, 1303.3348.

[153]  U. Ellwanger,et al.  Status of invisible Higgs decays , 2013, 1302.5694.

[154]  D. Whiteson,et al.  Mono-everything: Combined limits on dark matter production at colliders from multiple final states , 2013, 1302.3619.

[155]  C. Englert,et al.  Emergence of the electroweak scale through the Higgs portal , 2013, 1301.4224.

[156]  A. Simone,et al.  On the effective operators for Dark Matter annihilations , 2013, 1301.1486.

[157]  Y. S. Tsai,et al.  A generic method to constrain the dark matter model parameters from Fermi observations of dwarf spheroids , 2012, 1212.3990.

[158]  M. Radici,et al.  First extraction of valence transversities in a collinear framework , 2012, 1212.3568.

[159]  D. Whiteson,et al.  Collider searches for dark matter in events with a Z boson and missing energy , 2012, 1212.3352.

[160]  Lian-tao Wang,et al.  Searching for low mass dark portal at the LHC , 2012, 1212.2221.

[161]  J. T. Childers,et al.  ATLAS search for new phenomena in dijet mass and angular distributions using pp collisions at √s=7 TeV , 2012, 1210.1718.

[162]  M. P. Le,et al.  Bounds on dark matter interactions with electroweak gauge bosons , 2012, 1210.0525.

[163]  Chong-Sheng Li,et al.  Searching for the signal of dark matter and photon associated production at the LHC beyond leading order , 2012, 1210.0195.

[164]  F. Kahlhoefer,et al.  The impact of heavy-quark loops on LHC dark-matter searches , 2012, 1208.4605.

[165]  T. Tait,et al.  Searches with mono-leptons , 2012, 1208.4361.

[166]  A. Djouadi,et al.  Direct detection of Higgs–portal dark matter at the LHC , 2012, 1205.3169.

[167]  Wick Haxton,et al.  The Effective Field Theory of Dark Matter Direct Detection , 2012, 1203.3542.

[168]  J. Jia TeV with the ATLAS Detector , 2013 .

[169]  T. Tait,et al.  Effective theories of gamma-ray lines from dark matter annihilation , 2012, 1211.7061.

[170]  J. A. Oller,et al.  The strangeness content of the nucleon from effective field theory and phenomenology , 2012, 1209.2870.

[171]  L. Krauss,et al.  Searching for Dark Matter at the LHC with a Mono-Z , 2012, 1209.0231.

[172]  J. Menendez,et al.  Spin-dependent WIMP scattering off nuclei , 2012, 1208.1094.

[173]  F. Kahlhoefer,et al.  Loop-induced dark matter direct detection signals from gamma-ray lines , 2012, 1207.3971.

[174]  A. Ibarra,et al.  Closing in on mass-degenerate dark matter scenarios with antiprotons and direct detection , 2012, 1207.1431.

[175]  W. Keung,et al.  Dipole moment dark matter at the LHC , 2012, 1206.0640.

[176]  D. Whiteson,et al.  Two Lines or Not Two Lines? That is the Question of Gamma Ray Spectra , 2012, 1205.4723.

[177]  V. Cirigliano,et al.  WIMP-nucleus scattering in chiral effective theory , 2012, 1205.2695.

[178]  F. Kahlhoefer,et al.  LHC and Tevatron bounds on the dark matter direct detection cross-section for vector mediators , 2012, 1204.3839.

[179]  James Unwin,et al.  Closing in on asymmetric dark matter I: model independent limits for interactions with quarks , 2012, 1203.4854.

[180]  J. Zupan,et al.  Higgs portal, fermionic dark matter, and a Standard Model like Higgs at 125 GeV , 2012, 1203.2064.

[181]  Patrick J. Fox,et al.  Taking a Razor to Dark Matter Parameter Space at the LHC , 2012, 1203.1662.

[182]  X. Ji,et al.  Light dark matter and Z′ dark force at colliders , 2012, 1202.2894.

[183]  Hai-Yang Cheng,et al.  Revisiting scalar and pseudoscalar couplings with nucleons , 2012, 1202.1292.

[184]  J. Kamenik,et al.  Could a light Higgs boson illuminate the dark sector , 2012, 1201.4814.

[185]  Kingman Cheung,et al.  Global constraints on effective dark matter interactions: relic density, direct detection, indirect detection, and collider , 2012, 1201.3402.

[186]  A. Simone Electroweak lights from Dark Matter annihilations , 2012, 1201.1443.

[187]  Ran Ding,et al.  Spin 3/2 particle as a dark matter candidate: an effective field theory approach , 2012, 1201.0506.

[188]  L. Vecchi,et al.  Unitarity and Monojet Bounds on Models for DAMA, CoGeNT, and CRESST-II , 2011, 1112.5457.

[189]  A. Ibarra,et al.  Dark matter annihilations into two light fermions and one gauge boson: general analysis and antiproton constraints , 2011, 1112.5155.

[190]  Abdelhak Djouadi,et al.  Implications of LHC searches for Higgs-portal dark matter , 2011, 1112.3299.

[191]  W. Keung,et al.  Bremsstrahlung in dark matter annihilation , 2011, 1111.4523.

[192]  Y. Mambrini,et al.  Vector Higgs portal dark matter and the invisible Higgs , 2011, 1111.4482.

[193]  C. Kilic,et al.  Lower limits on the strengths of gamma ray lines from WIMP dark matter annihilation , 2011, 1111.2835.

[194]  C. Wagner,et al.  Dark side of the Higgs boson , 2011, 1110.4405.

[195]  J. A. Oller,et al.  The chiral representation of the $\pi N$ scattering amplitude and the pion-nucleon sigma term , 2011, 1110.3797.

[196]  Patrick J. Fox,et al.  Missing Energy Signatures of Dark Matter at the LHC , 2011, 1109.4398.

[197]  S. Blanchet,et al.  Flavored Dark Matter, and Its Implications for Direct Detection and Colliders , 2011, 1109.3516.

[198]  A. Pierce,et al.  Singlet-Doublet Dark Matter , 2011, 1109.2604.

[199]  T Glanzman,et al.  Measurement of separate cosmic-ray electron and positron spectra with the fermi large area telescope. , 2011, Physical review letters.

[200]  G. Giudice,et al.  Counting dark matter particles in LHC events , 2011, 1108.1800.

[201]  P. Ko,et al.  Light dark matter in leptophobic Z' models , 2011, 1106.0885.

[202]  Jared A. Evans,et al.  Simplified Models for LHC New Physics Searches , 2011, 1105.2838.

[203]  T. Tait,et al.  Collider Constraints on Dipole-Interacting Dark Matter , 2011, 1103.3289.

[204]  Mario Kadastik,et al.  PPPC 4 DM ID: a poor particle physicist cookbook for dark matter indirect detection , 2010, 1012.4515.

[205]  Xiao-Jun Bi,et al.  Constraining the interaction strength between dark matter and visible matter: I. Fermionic dark matter , 2010, 1012.2022.

[206]  S. Baek,et al.  Search for the Higgs portal to a singlet fermionic dark matter at the LHC , 2011, 1112.1847.

[207]  R. Iengo,et al.  The one-loop and Sommerfeld electroweak corrections to the Wino dark matter annihilation , 2011, 1111.2916.

[208]  W. Shepherd,et al.  LHC Bounds on UV-Complete Models of Dark Matter , 2011, 1111.2359.

[209]  M. Pospelov,et al.  Higgs decays to dark matter: Beyond the minimal model , 2011, 1109.4872.

[210]  T. Tait,et al.  LHC bounds on interactions of dark matter , 2011, 1108.1196.

[211]  Y. Mambrini Higgs searches and singlet scalar dark matter: Combined constraints from XENON 100 and the LHC , 2011, 1108.0671.

[212]  A. Simone,et al.  Initial state radiation in Majorana Dark Matter annihilations , 2011, 1107.4453.

[213]  F. Kahlhoefer,et al.  Direct detection of dark matter in models with a light Z′ , 2011, 1107.2118.

[214]  Chong-Sheng Li,et al.  Next-to-leading order QCD predictions for the signal of Dark Matter and photon associated production at the LHC , 2011, 1107.2048.

[215]  Tilman Plehn,et al.  Exploring the Higgs portal , 2011, 1106.3097.

[216]  M. N. Rebelo,et al.  Theory and phenomenology of two-Higgs-doublet models , 2011, 1106.0034.

[217]  A. Ibarra,et al.  Antiproton constraints on dark matter annihilations from internal electroweak bremsstrahlung , 2011, 1105.5367.

[218]  K. Cheung,et al.  Gamma-ray constraints on effective interactions of the dark matter , 2011, 1104.5329.

[219]  A. Simone,et al.  On the importance of electroweak corrections for Majorana dark matter indirect detection , 2011, 1104.2996.

[220]  M. Buckley,et al.  Asymmetric dark matter and effective operators , 2011, 1104.1429.

[221]  P. Fox,et al.  LEP Shines Light on Dark Matter , 2011, 1103.0240.

[222]  D. Majumdar,et al.  Real gauge singlet scalar extension of the Standard Model: A possible candidate for cold dark matter , 2011, 1102.3024.

[223]  N. Bell,et al.  Dark matter annihilation signatures from electroweak bremsstrahlung , 2011, 1101.3357.

[224]  K. Cheung,et al.  Cosmic Antiproton Constraints on Effective Interactions of the Dark Matter , 2010, 1011.2310.

[225]  N. Bell,et al.  W / Z bremsstrahlung as the dominant annihilation channel for dark matter , 2010, 1009.2584.

[226]  A. Strumia,et al.  Weak Corrections are Relevant for Dark Matter Indirect Detection , 2010, 1009.0224.

[227]  T. Tait,et al.  Gamma ray line constraints on effective theories of dark matter , 2010, 1009.0008.

[228]  Hai-Bo Yu,et al.  Constraints on Light Majorana dark Matter from Colliders , 2010, 1005.1286.

[229]  K. Mawatari,et al.  The top window for dark matter , 2010, 1009.0618.

[230]  T. Tait,et al.  Constraints on dark matter from colliders , 2010, 1008.1783.

[231]  V. Barger,et al.  Light Higgs Boson, Light Dark Matter and Gamma Rays , 2010, 1008.1796.

[232]  JiJi Fan,et al.  Non-relativistic effective theory of dark matter direct detection , 2010, 1008.1591.

[233]  S. Kanemura,et al.  Can WIMP Dark Matter overcome the Nightmare Scenario , 2010, 1005.5651.

[234]  Patrick J. Fox,et al.  The Tevatron at the frontier of dark matter direct detection , 2010, 1005.3797.

[235]  Rashmish K. Mishra,et al.  A Classification of Dark Matter Candidates with Primarily Spin-Dependent Interactions with Matter , 2010, 1003.1912.

[236]  Edward W. Kolb,et al.  Maverick dark matter at colliders , 2010, 1002.4137.

[237]  X. He,et al.  The simplest dark-matter model, CDMS II results, and Higgs detection at LHC , 2009, 0912.4722.

[238]  Chong-Sheng Li,et al.  Effective dark matter model: relic density, CDMS II, Fermi LAT and LHC , 2009, 0912.4511.

[239]  J. McDonald,et al.  Gauge singlet scalar as inflaton and thermal relic dark matter , 2009, 0909.0520.

[240]  A. Semenov,et al.  Dark matter direct detection rate in a generic model with micrOMEGAs_2.2 , 2008, Comput. Phys. Commun..

[241]  E. Tassi,et al.  Measurement of J/psi helicity distributions in inelastic photoproduction at HERA , 2009 .

[242]  Paul Langacker,et al.  Complex Singlet Extension of the Standard Model , 2008, 0811.0393.

[243]  P. Schuster,et al.  Simplified models for a first characterization of new physics at the LHC , 2008, 0810.3921.

[244]  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.

[245]  Y. Gershtein,et al.  Discovering hidden sectors with monophoton Z ′ searches , 2008, 0809.2849.

[246]  T. Bringmann,et al.  New positron spectral features from supersymmetric dark matter: A way to explain the PAMELA data? , 2008, 0808.3725.

[247]  M. Tytgat,et al.  WIMP dark matter, Higgs exchange and DAMA , 2008, 0808.0255.

[248]  F. Petriello,et al.  The Invisible Z' at the LHC , 2008 .

[249]  F. Petriello,et al.  Invisible Z{sup '} at the CERN LHC , 2008, 0803.4005.

[250]  Seodong Shin,et al.  Singlet fermionic dark matter , 2008, 0803.2932.

[251]  John Ellis,et al.  Hadronic uncertainties in the elastic scattering of supersymmetric dark matter , 2008, 0801.3656.

[252]  Lars Bergstrom,et al.  New gamma-ray contributions to supersymmetric dark matter annihilation , 2007, 0710.3169.

[253]  R. Foot,et al.  Solution to the hierarchy problem from an almost decoupled hidden sector within a classically scale invariant theory , 2007, 0709.2750.

[254]  K. Kong,et al.  Massive color-octet bosons and pairs of resonances at hadron colliders , 2007, 0709.2378.

[255]  Paul Langacker,et al.  CERN LHC phenomenology of an extended standard model with a real scalar singlet , 2007, 0706.4311.

[256]  F. Petriello,et al.  Invisible Z at the CERN LHC , 2008 .

[257]  P. Fox,et al.  LHC and dark matter signals of improved naturalness , 2007, 0706.0918.

[258]  Francesco D’Eramo Dark matter and Higgs boson physics , 2007, 0705.4493.

[259]  K. Kong,et al.  Leptons and photons at the LHC: cascades through spinless adjoints , 2007, hep-ph/0703231.

[260]  B. Knuteson,et al.  MARMOSET: The Path from LHC Data to the New Standard Model via On-Shell Effective Theories , 2007, hep-ph/0703088.

[261]  Armenia,et al.  Update on transversity and Collins functions from SIDIS and e+e− data , 2007, 0812.4366.

[262]  H. Nicolai,et al.  Conformal symmetry and the Standard Model , 2006, hep-th/0612165.

[263]  F. Wilczek,et al.  Higgs-field portal into hidden sectors , 2006, hep-ph/0605188.

[264]  L. Senatore,et al.  Minimal model for dark matter and unification , 2005, hep-ph/0510064.

[265]  Jonathan L. Feng,et al.  Lower limit on dark matter production at the CERN Large Hadron Collider. , 2005, Physical review letters.

[266]  H. Murayama,et al.  The new Minimal Standard Model , 2004, hep-ph/0405097.

[267]  M. Carena,et al.  Z′gauge bosons at the Fermilab Tevatron , 2004 .

[268]  M. Carena,et al.  $Z^\prime$ gauge bosons at the Tevatron , 2004, hep-ph/0408098.

[269]  P. Ullio,et al.  DarkSUSY: Computing Supersymmetric Dark Matter Properties Numerically , 2004, astro-ph/0406204.

[270]  Konstantin T. Matchev,et al.  Dark matter at colliders: A Model independent approach , 2004, hep-ph/0403004.

[271]  M. Dittmar,et al.  Effective K-factors for $gg \to H \to WW\to l\nu l\nu$ at the LHC , 2004, hep-ph/0402218.

[272]  M. Kamionkowski,et al.  New contribution to scattering of weakly interacting massive particles on nuclei. , 2003, Physical review letters.

[273]  M. Kamionkowski,et al.  New contribution to WIMP-nucleus scattering , 2003, astro-ph/0309115.

[274]  G. D’Ambrosio,et al.  Minimal flavour violation: an effective field theory approach , 2002, hep-ph/0207036.

[275]  C. Burgess,et al.  The minimal model of nonbaryonic dark matter: A singlet scalar , 2000, hep-ph/0011335.

[276]  I. Kogan,et al.  Deconfining Phase Transition in 2+1 D , 2001 .

[277]  J. Ellis,et al.  Re-evaluation of the elastic scattering of supersymmetric dark matter , 2000, hep-ph/0001005.

[278]  Lars Bergström,et al.  Radiative Processes in Dark Matter Photino Annihilation , 1989 .

[279]  E. Weinberg Radiative Corrections as the Origin of Spontaneous Symmetry Breaking , 1973, hep-th/0507214.