S. Dimopoulos and H. Georgi, Softly broken supersymmetry and SU(5), Nucl. Phys. B 193 (1981) 150 [INSPIRE].
N. Sakai, Naturalness in supersymmetric guts, Z. Phys. C 11 (1981) 153 [INSPIRE].
X. Tata, Weak scale supersymmetry: from superfields to scattering events, Cambridge University Press, Cambridge U.K. (2006).
M. Drees, R. Godbole and P. Roy, Theory and phenomenology of sparticles, World Scientific, Singapore (2004).
P. Binétruy, Supersymmetry, Oxford University Press, Oxford U.K. (2006).
S.P. Martin, A Supersymmetry primer, hep-ph/9709356 [INSPIRE].
F. Gabbiani, E. Gabrielli, A. Masiero and L. Silvestrini, A complete analysis of FCNC and CP constraints in general SUSY extensions of the standard model, Nucl. Phys. B 477 (1996) 321 [hep-ph/9604387] [INSPIRE].
H. Murayama and A. Pierce, Not even decoupling can save minimal supersymmetric SU(5), Phys. Rev. D 65 (2002) 055009 [hep-ph/0108104] [INSPIRE].
S. Weinberg, Cosmological constraints on the scale of supersymmetry breaking, Phys. Rev. Lett. 48 (1982) 1303 [INSPIRE].
M. Khlopov and A.D. Linde, Is it easy to save the gravitino?, Phys. Lett. B 138 (1984) 265 [INSPIRE].
M. Fukugita and T. Yanagida, Baryogenesis without grand unification, Phys. Lett. B 174 (1986) 45 [INSPIRE].
M. Luty, Baryogenesis via leptogenesis, Phys. Rev. D 45 (1992) 455 [INSPIRE].
W. Buchmüller and M. Plümacher, Baryon asymmetry and neutrino mixing, Phys. Lett. B 389 (1996) 73 [hep-ph/9608308] [INSPIRE].
W. Buchmüller and M. Plümacher, Neutrino masses and the baryon asymmetry, Int. J. Mod. Phys. A 15 (2000) 5047 [hep-ph/0007176] [INSPIRE].
R. Barbieri, P. Creminelli, A. Strumia and N. Tetradis, Baryogenesis through leptogenesis, Nucl. Phys. B 575 (2000) 61 [hep-ph/9911315] [INSPIRE].
G. Giudice, A. Notari, M. Raidal, A. Riotto and A. Strumia, Towards a complete theory of thermal leptogenesis in the SM and MSSM, Nucl. Phys. B 685 (2004) 89 [hep-ph/0310123] [INSPIRE].
W. Buchmüller, R. Peccei and T. Yanagida, Leptogenesis as the origin of matter, Ann. Rev. Nucl. Part. Sci. 55 (2005) 311 [hep-ph/0502169] [INSPIRE].
W. Buchmüller, P. Di Bari and M. Plümacher, Cosmic microwave background, matter–antimatter asymmetry and neutrino masses, Nucl. Phys. B 643 (2002) 367 [Erratum ibid. B 793 (2008) 362] [hep-ph/0205349] [INSPIRE].
W. Buchmüller, P. Di Bari and M. Plümacher, Leptogenesis for pedestrians, Annals Phys. 315 (2005) 305 [hep-ph/0205349] [INSPIRE].
W. Buchmüller, P. Di Bari and M. Plümacher, Some aspects of thermal leptogenesis, New J. Phys. 6 (2004) 105.
G. Lazarides and Q. Shafi, Origin of matter in the inflationary cosmology, Phys. Lett. B 258 (1991) 305 [INSPIRE].
K. Kumekawa, T. Moroi and T. Yanagida, Flat potential for inflaton with a discrete R invariance in supergravity, Prog. Theor. Phys. 92 (1994) 437 [hep-ph/9405337] [INSPIRE].
T. Asaka, K. Hamaguchi, M. Kawasaki and T. Yanagida, Leptogenesis in inflaton decay, Phys. Lett. B 464 (1999) 12 [hep-ph/9906366] [INSPIRE].
G. Giudice, M. Peloso, A. Riotto and I. Tkachev, Production of massive fermions at preheating and leptogenesis, JHEP 08 (1999) 014 [hep-ph/9905242] [INSPIRE].
M. Dine, A. Kagan and S. Samuel, Naturalness in supersymmetry, or raising the supersymmetry breaking scale, Phys. Lett. B 243 (1990) 250 [INSPIRE].
A.G. Cohen, D. Kaplan and A. Nelson, The more minimal supersymmetric standard model, Phys. Lett. B 388 (1996) 588 [hep-ph/9607394] [INSPIRE].
H. Baer, S. Kraml, A. Lessa, S. Sekmen and X. Tata, Effective supersymmetry at the LHC, JHEP 10 (2010) 018 [arXiv:1007.3897] [INSPIRE].
M. Kawasaki, K. Kohri, T. Moroi and A. Yotsuyanagi, Big-bang nucleosynthesis and gravitino, Phys. Rev. D 78 (2008) 065011 [arXiv:0804.3745] [INSPIRE].
H. Baer and X. Tata, Weak scale supersymmetry: from superfields to scattering events, Cambridge University Press, Cambridge U.K. (2006).
R. Barbieri and G. Giudice, Upper bounds on supersymmetric particle masses, Nucl. Phys. B 306 (1988) 63 [INSPIRE].
G.W. Anderson and D.J. Castano, Measures of fine tuning, Phys. Lett. B 347 (1995) 300 [hep-ph/9409419] [INSPIRE].
K.L. Chan, U. Chattopadhyay and P. Nath, Naturalness, weak scale supersymmetry and the prospect for the observation of supersymmetry at the Tevatron and at the CERN LHC, Phys. Rev. D 58 (1998) 096004 [hep-ph/9710473] [INSPIRE].
J.L. Feng, K.T. Matchev and T. Moroi, Multi-TeV scalars are natural in minimal supergravity, Phys. Rev. Lett. 84 (2000) 2322 [hep-ph/9908309] [INSPIRE].
J.L. Feng, K.T. Matchev and T. Moroi, Focus points and naturalness in supersymmetry, Phys. Rev. D 61 (2000) 075005 [hep-ph/9909334] [INSPIRE].
G.L. Kane, A higgsino-LSP world, in Perspectives on supersymmetry, G.L. Kane ed., World Scientific, Singapore (1998).
G.L. Kane and J.D. Wells, Higgsino cold dark matter motivated by collider data, Phys. Rev. Lett. 76 (1996) 4458 [hep-ph/9603336] [INSPIRE].
WMAP collaboration, E. Komatsu et al., Seven-year Wilkinson Microwave Anisotropy Probe (WMAP) observations: cosmological interpretation, Astrophys. J. Suppl. 192 (2011) 18 [arXiv:1001.4538] [INSPIRE].
J.R. Ellis and K.A. Olive, How finely tuned is supersymmetric dark matter?, Phys. Lett. B 514 (2001) 114 [hep-ph/0105004] [INSPIRE].
H. Baer and A.D. Box, Fine-tuning favors mixed axion/axino cold dark matter over neutralinos in the minimal supergravity model, Eur. Phys. J. C 68 (2010) 523 [arXiv:0910.0333] [INSPIRE].
H. Baer, A.D. Box and H. Summy, Neutralino versus axion/axino cold dark matter in the 19 parameter SUGRA model, JHEP 10 (2010) 023 [arXiv:1005.2215] [INSPIRE].
B.S. Acharya, G. Kane, S. Watson and P. Kumar, A non-thermal WIMP miracle, Phys. Rev. D 80 (2009) 083529 [arXiv:0908.2430] [INSPIRE].
T. Moroi and L. Randall, Wino cold dark matter from anomaly mediated SUSY breaking, Nucl. Phys. B 570 (2000) 455 [hep-ph/9906527] [INSPIRE].
G.B. Gelmini and P. Gondolo, Neutralino with the right cold dark matter abundance in (almost) any supersymmetric model, Phys. Rev. D 74 (2006) 023510 [hep-ph/0602230] [INSPIRE].
G. Gelmini, P. Gondolo, A. Soldatenko and C.E. Yaguna, The effect of a late decaying scalar on the neutralino relic density, Phys. Rev. D 74 (2006) 083514 [hep-ph/0605016] [INSPIRE].
R. Peccei and H.R. Quinn, CP conservation in the presence of instantons, Phys. Rev. Lett. 38 (1977) 1440 [INSPIRE].
R. Peccei and H.R. Quinn, Constraints imposed by CP conservation in the presence of instantons, Phys. Rev. D 16 (1977) 1791 [INSPIRE].
S. Weinberg, A new light boson?, Phys. Rev. Lett. 40 (1978) 223 [INSPIRE].
F. Wilczek, Problem of strong p and t invariance in the presence of instantons, Phys. Rev. Lett. 40 (1978) 279 [INSPIRE].
J.E. Kim, Weak interaction singlet and strong CP invariance, Phys. Rev. Lett. 43 (1979) 103 [INSPIRE].
M.A. Shifman, A. Vainshtein and V.I. Zakharov, Can confinement ensure natural CP invariance of strong interactions?, Nucl. Phys. B 166 (1980) 493 [INSPIRE].
M. Dine, W. Fischler and M. Srednicki, A simple solution to the strong CP problem with a harmless axion, Phys. Lett. B 104 (1981) 199 [INSPIRE].
A.P. Zhitnitskii, On possible suppression of the axion hadron interactions (In Russian), Sov. J. Nucl. Phys. 31 (1980) 260 [Yad. Fiz. 31 (1980) 497] [INSPIRE].
K.-Y. Choi, J.E. Kim, H.M. Lee and O. Seto, Neutralino dark matter from heavy axino decay, Phys. Rev. D 77 (2008) 123501 [arXiv:0801.0491] [INSPIRE].
H. Baer, A. Lessa, S. Rajagopalan and W. Sreethawong, Mixed axion/neutralino cold dark matter in supersymmetric models, JCAP 06 (2011) 031 [arXiv:1103.5413] [INSPIRE].
M. Bolz, A. Brandenburg and W. Buchmüller, Thermal production of gravitinos, Nucl. Phys. B 606 (2001) 518 [Erratum ibid. B 790 (2008) 336–337] [hep-ph/0012052] [INSPIRE].
J. Pradler and F.D. Steffen, Thermal gravitino production and collider tests of leptogenesis, Phys. Rev. D 75 (2007) 023509 [hep-ph/0608344] [INSPIRE].
V.S. Rychkov and A. Strumia, Thermal production of gravitinos, Phys. Rev. D 75 (2007) 075011 [hep-ph/0701104] [INSPIRE].
K. Kohri, M. Yamaguchi and J. Yokoyama, Neutralino dark matter from heavy gravitino decay, Phys. Rev. D 72 (2005) 083510 [hep-ph/0502211] [INSPIRE].
T. Asaka, S. Nakamura and M. Yamaguchi, Gravitinos from heavy scalar decay, Phys. Rev. D 74 (2006) 023520 [hep-ph/0604132] [INSPIRE].
M. Endo, F. Takahashi and T. Yanagida, Inflaton decay in supergravity, Phys. Rev. D 76 (2007) 083509 [arXiv:0706.0986] [INSPIRE].
H. Baer, R. Dermisek, S. Rajagopalan and H. Summy, Neutralino, axion and axino cold dark matter in minimal, hypercharged and gaugino AMSB, JCAP 07 (2010) 014 [arXiv:1004.3297] [INSPIRE].
J.R. Ellis, K.A. Olive and Y. Santoso, The MSSM parameter space with nonuniversal Higgs masses, Phys. Lett. B 539 (2002) 107 [hep-ph/0204192] [INSPIRE].
J.R. Ellis, T. Falk, K.A. Olive and Y. Santoso, Exploration of the MSSM with nonuniversal Higgs masses, Nucl. Phys. B 652 (2003) 259 [hep-ph/0210205] [INSPIRE].
H. Baer, A. Mustafayev, S. Profumo, A. Belyaev and X. Tata, Neutralino cold dark matter in a one parameter extension of the minimal supergravity model, Phys. Rev. D 71 (2005) 095008 [hep-ph/0412059] [INSPIRE].
H. Baer, A. Mustafayev, S. Profumo, A. Belyaev and X. Tata, Direct, indirect and collider detection of neutralino dark matter in SUSY models with non-universal Higgs masses, JHEP 07 (2005) 065 [hep-ph/0504001] [INSPIRE].
H. Baer and X. Tata, Probing charginos and neutralinos beyond the reach of LEP at the Tevatron collider, Phys. Rev. D 47 (1993) 2739 [INSPIRE].
H. Baer, M. Drees, F. Paige, P. Quintana and X. Tata, Trilepton signal for supersymmetry at the Fermilab Tevatron revisited, Phys. Rev. D 61 (2000) 095007 [hep-ph/9906233] [INSPIRE].
V.D. Barger and C. Kao, Trilepton signature of minimal supergravity at the upgraded Tevatron, Phys. Rev. D 60 (1999) 115015 [hep-ph/9811489] [INSPIRE].
K.T. Matchev and D.M. Pierce, New backgrounds in trilepton, dilepton and dilepton plus τ jet SUSY signals at the Tevatron, Phys. Lett. B 467 (1999) 225 [hep-ph/9907505] [INSPIRE].
SUGRA Working Group collaboration, V. Barger et al., Report of the SUGRA working group for Run II of the Tevatron, hep-ph/0003154 [INSPIRE].
F.E. Paige, S.D. Protopopescu, H. Baer and X. Tata, ISAJET 7.69: a Monte Carlo event generator for pp, pp and e + e − reactions, hep-ph/0312045 [INSPIRE].
H. Baer, J. Ferrandis, S. Kraml and W. Porod, On the treatment of threshold effects in SUSY spectrum computations, Phys. Rev. D 73 (2006) 015010 [hep-ph/0511123] [INSPIRE].
H. Baer, V. Barger, A. Lessa and X. Tata, Capability of LHC to discover supersymmetry with \( \sqrt {s} = { }7TeV{ }and{ }1{ }f{b^{{ - 1}}} \) , JHEP 06 (2010) 102 [arXiv:1004.3594] [INSPIRE].
H. Baer, X. Tata and J. Woodside, Multi-lepton signals from supersymmetry at hadron super colliders, Phys. Rev. D 45 (1992) 142 [INSPIRE].
H. Baer, C.-h. Chen, F. Paige and X. Tata, Signals for minimal supergravity at the CERN Large Hadron Collider: multi-jet plus missing energy channel, Phys. Rev. D 52 (1995) 2746 [hep-ph/9503271] [INSPIRE].
H. Baer, C.-h. Chen, F. Paige and X. Tata, Signals for minimal supergravity at the CERN Large Hadron Collider. 2: multi-lepton channels, Phys. Rev. D 53 (1996) 6241 [hep-ph/9512383] [INSPIRE].
H. Baer, C.-H. Chen, M. Drees, F. Paige and X. Tata, Probing minimal supergravity at the CERN LHC for large tan β, Phys. Rev. D 59 (1999) 055014 [hep-ph/9809223] [INSPIRE].
H. Baer, C. Balázs, A. Belyaev, T. Krupovnickas and X. Tata, Updated reach of the CERN LHC and constraints from relic density, b → sγ and a(μ) in the mSUGRA model, JHEP 06 (2003) 054 [hep-ph/0304303] [INSPIRE].
S. Abdullin and F. Charles, Search for SUSY in (leptons +) jets + E miss (T ) final states, Nucl. Phys. B 547 (1999) 60 [hep-ph/9811402] [INSPIRE].
CMS collaboration, S. Abdullin et al., Discovery potential for supersymmetry in CMS, J. Phys. G 28 (2002) 469 [hep-ph/9806366] [INSPIRE].
B. Allanach, J. Hetherington, M.A. Parker and B. Webber, Naturalness reach of the Large Hadron Collider in minimal supergravity, JHEP 08 (2000) 017 [hep-ph/0005186] [INSPIRE].
W. Beenakker, R. Hopker and M. Spira, PROSPINO: a program for the production of supersymmetric particles in next-to-leading order QCD, hep-ph/9611232 [INSPIRE].
H. Baer, J.R. Ellis, G. Gelmini, D.V. Nanopoulos and X. Tata, Squark decays into gauginos at the pp collider, Phys. Lett. B 161 (1985) 175 [INSPIRE].
G. Gamberini, Heavy gluino and squark decays at pp collider, Z. Phys. C 30 (1986) 605 [INSPIRE].
H. Baer, V.D. Barger, D. Karatas and X. Tata, Detecting gluinos at hadron supercolliders, Phys. Rev. D 36 (1987) 96 [INSPIRE].
H. Baer and T. Krupovnickas, Radiative neutralino decay in supersymmetric models, JHEP 09 (2002) 038 [hep-ph/0208277] [INSPIRE].
XENON100 collaboration, E. Aprile et al., Dark matter results from 100 live days of XENON100 data, Phys. Rev. Lett. 107 (2011) 131302 [arXiv:1104.2549] [INSPIRE].
H. Baer, A. Belyaev, T. Krupovnickas and J. O’Farrill, Indirect, direct and collider detection of neutralino dark matter, JCAP 08 (2004) 005 [hep-ph/0405210] [INSPIRE].
H. Baer, E.-K. Park and X. Tata, Collider, direct and indirect detection of supersymmetric dark matter, New J. Phys. 11 (2009) 105024 [arXiv:0903.0555] [INSPIRE].
H. Baer and S. Profumo, Low energy antideuterons: shedding light on dark matter, JCAP 12 (2005) 008 [astro-ph/0510722] [INSPIRE].
Fermi LAT collaboration, I. Kuznetsova and J. Rafelski, Electron-positron plasma drop formed by ultra-intense laser pulses, arXiv:1109.3546 [INSPIRE].
K. Rajagopal, M.S. Turner and F. Wilczek, Cosmological implications of axinos, Nucl. Phys. B 358 (1991) 447 [INSPIRE].
L. Covi, J.E. Kim and L. Roszkowski, Axinos as cold dark matter, Phys. Rev. Lett. 82 (1999) 4180 [hep-ph/9905212] [INSPIRE].
L. Covi, H.-B. Kim, J.E. Kim and L. Roszkowski, Axinos as dark matter, JHEP 05 (2001) 033 [hep-ph/0101009] [INSPIRE].
H. Baer, A.D. Box and H. Summy, Mainly axion cold dark matter in the minimal supergravity model, JHEP 08 (2009) 080 [arXiv:0906.2595] [INSPIRE].
F.D. Steffen, Dark matter candidates-axions, neutralinos, gravitinos and axinos, Eur. Phys. J. C 59 (2009) 557 [arXiv:0811.3347] [INSPIRE].
H. Baer, C.-h. Chen, F. Paige and X. Tata, Trileptons from chargino-neutralino production at the CERN Large Hadron Collider, Phys. Rev. D 50 (1994) 4508 [hep-ph/9404212] [INSPIRE].
H. Baer, T. Krupovnickas, S. Profumo and P. Ullio, Model independent approach to focus point supersymmetry: from dark matter to collider searches, JHEP 10 (2005) 020 [hep-ph/0507282] [INSPIRE].
T. Sjöstrand, S. Mrenna and P.Z. Skands, PYTHIA 6.4 physics and manual, JHEP 05 (2006) 026 [hep-ph/0603175] [INSPIRE].
J. Alwall, M. Herquet, F. Maltoni, O. Mattelaer and T. Stelzer, MadGraph 5: going beyond, JHEP 06 (2011) 128 [arXiv:1106.0522] [INSPIRE].
J. Conway, PGS — Pretty Good Simulation, online at http://physics.ucdavis.edu/˜conway/research/software/pgs/pgs4-general.htm.
H. Baer, K. Hagiwara and X. Tata, Gauginos as a signal for supersymmetry at pp colliders, Phys. Rev. D 35 (1987) 1598 [INSPIRE].
H. Baer, D.D. Karatas and X. Tata, Gluino and squark production in association with gauginos at hadron supercolliders, Phys. Rev. D 42 (1990) 2259 [INSPIRE].
H. Baer, C. Kao and X. Tata, Aspects of chargino-neutralino production at the Tevatron collider, Phys. Rev. D 48 (1993) 5175 [hep-ph/9307347] [INSPIRE].
I. Hinchliffe, F. Paige, M. Shapiro, J. Soderqvist and W. Yao, Precision SUSY measurements at CERN LHC, Phys. Rev. D 55 (1997) 5520 [hep-ph/9610544] [INSPIRE].
H. Bachacou, I. Hinchliffe and F.E. Paige, Measurements of masses in SUGRA models at CERN LHC, Phys. Rev. D 62 (2000) 015009 [hep-ph/9907518] [INSPIRE].
ATLAS collaboration, Expected performance of the ATLAS experiment: detector, trigger and physics, CERN-OPEN-2008-020 (2009).
CMS Collaboration, Physics technical design report. Volume II: physics performance, CERN-LHCC-2006-021 (2006).
H. Baer, R.B. Munroe and X. Tata, Supersymmetry studies at future linear e + e − colliders, Phys. Rev. D 54 (1996) 6735 [Erratum ibid. D 56 (1997) 4424] [hep-ph/9606325] [INSPIRE].
H. Baer, A. Belyaev, T. Krupovnickas and X. Tata, Linear collider capabilities for supersymmetry in dark matter allowed regions of the mSUGRA model, JHEP 02 (2004) 007 hep-ph/0311351] [INSPIRE].
RetroSearch is an open source project built by @garambo | Open a GitHub Issue
Search and Browse the WWW like it's 1997 | Search results from DuckDuckGo
HTML:
3.2
| Encoding:
UTF-8
| Version:
0.7.4