The SUSY CP problem and the MFV principle

[1]  J. Hisano,et al.  Waiting for μ → eγ from the MEG experiment , 2009, 0904.2080.

[2]  L. Mercolli,et al.  EDM constraints on flavored CP-violating phases , 2009, 0902.1949.

[3]  Jae Sik Lee,et al.  Electric Dipole Moments in the MSSM Reloaded , 2008, 0808.1819.

[4]  A. Buras,et al.  Low Energy Probes of CP Violation in a Flavor Blind MSSM , 2008, 0808.0707.

[5]  G. Colangelo,et al.  Supersymmetric models with minimal flavor violation and their running , 2008, 0807.0801.

[6]  P. Paradisi,et al.  Running minimal flavor violation , 2008, 0805.3989.

[7]  W. Marciano,et al.  The muon g-2 and the bounds on the Higgs boson mass , 2008, 0804.1142.

[8]  J. Hisano,et al.  Electric dipole moments from flavor-changing supersymmetric soft terms , 2007, 0712.1285.

[9]  Jae Sik Lee,et al.  B-meson observables in the maximally CP-violating MSSM with minimal flavor violation , 2007, 0708.2079.

[10]  G. Isidori,et al.  Flavor physics at large tan beta with a binolike lightest supersymmetric particle , 2007 .

[11]  M. Ciuchini,et al.  Soft SUSY breaking grand unification: Leptons vs quarks on the flavor playground , 2007, hep-ph/0702144.

[12]  Alan D. Martin,et al.  Improved predictions for g-2 of the muon and \alpha_{\rm QED}(M_Z^2) , 2006, hep-ph/0611102.

[13]  J. Hisano,et al.  New two‐loop contributions to hadronic EDMs in the MSSM , 2006, hep-ph/0606322.

[14]  J. Richardson,et al.  Improved experimental limit on the electric dipole moment of the neutron. , 2006, Physical review letters.

[15]  K. Olive,et al.  CP-odd Phase Correlations and Electric Dipole Moments , 2005, hep-ph/0506106.

[16]  M. Pospelov,et al.  Electric dipole moments as probes of new physics , 2005, hep-ph/0504231.

[17]  O. Vives,et al.  Spontaneous CP violation and non-Abelian family symmetry in SUSY , 2004, hep-ph/0401064.

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

[19]  E. Commins,et al.  New limit on the electron electric dipole moment. , 2002, Physical review letters.

[20]  J. Hisano,et al.  Neutrino masses, muon g-2, and lepton-flavour violation in the supersymmetric see-saw model , 2001, hep-ph/0102315.

[21]  A. Buras,et al.  Universal unitarity triangle and physics beyond the standard model , 2000, hep-ph/0007085.

[22]  W. Keung,et al.  Erratum: New Two-Loop Contribution to Electric Dipole Moments in Supersymmetric Theories [Phys. Rev. Lett. 82, 900 (1999)] , 1999 .

[23]  C. Wagner,et al.  Higgs bosons in the minimal supersymmetric standard model with explicit CP violation , 1999, hep-ph/9902371.

[24]  D. Demir Effects of the supersymmetric phases on the neutral Higgs sector , 1999, hep-ph/9901389.

[25]  A. Pilaftsis CP odd tadpole renormalization of Higgs scalar - pseudoscalar mixing , 1998, hep-ph/9803297.

[26]  L. Hall,et al.  Consequences of a U(2) flavour symmetry , 1997, hep-ph/9702315.

[27]  L. Hall,et al.  UNIFIED THEORIES WITH U(2) FLAVOR SYMMETRY , 1996, hep-ph/9610449.

[28]  J. Wells,et al.  Constraints on supersymmetric soft phases from renormalization group relations , 1996, hep-ph/9609511.

[29]  A. Nelson,et al.  The more Minimal Supersymmetric Standard Model , 1996, hep-ph/9607394.

[30]  F. Gabbiani,et al.  A complete analysis of FCNC and CP constraints in general SUSY extensions of the standard model , 1996, hep-ph/9604387.

[31]  R. Rattazzi,et al.  Solving the supersymmetric CP problem with Abelian horizontal symmetries , 1996, hep-ph/9603233.

[32]  Hall,et al.  Supersymmetric theory of flavor and R parity. , 1996, Physical review. D, Particles and fields.

[33]  F. Markopoulou,et al.  Gravitational constraint combinations generate a Lie algebra , 1996, gr-qc/9601038.

[34]  P. Bin'etruy,et al.  Yukawa textures with an anomalous horizontal Abelian symmetry , 1996, hep-ph/9601243.

[35]  L. Hall,et al.  Predictions from a U(2) flavour symmetry in supersymmetric theories , 1995, hep-ph/9512388.

[36]  A. Pomarol,et al.  Horizontal symmetries for the supersymmetric flavor problem , 1995, hep-ph/9507462.

[37]  E. Dudas,et al.  Yukawa matrices from a spontaneously broken abelian symmetry , 1995, hep-ph/9504292.

[38]  P. Ramond,et al.  Yukawa textures and anomalies , 1994, hep-ph/9412385.

[39]  R. Shrock,et al.  Models of fermion mass matrices based on a flavor- and generation-dependent U(1) gauge symmetry , 1994, hep-ph/9412367.

[40]  L. Ibáñez,et al.  Fermion masses and mixing angles from gauge symmetries , 1994, hep-ph/9403338.

[41]  Kaplan,et al.  Flavor unification and discrete non-Abelian symmetries. , 1993, Physical review. D, Particles and fields.

[42]  Y. Nir,et al.  Mass matrix models: The Sequel , 1993, hep-ph/9310320.

[43]  Y. Nir,et al.  Mass matrix models , 1992, hep-ph/9212278.

[44]  Hall,et al.  Weak-scale effective supersymmetry. , 1990, Physical review letters.

[45]  Howard Georgi,et al.  Composite-technicolor standard model , 1987 .

[46]  L. Hall,et al.  New flavor violations in supergravity models , 1986 .

[47]  H. Nielsen,et al.  Hierarchy of Quark Masses, Cabibbo Angles and CP Violation , 1979 .

[48]  Apostolos Pilaftsis,et al.  a Fermi National Accelerator Laboratory FERMILAB-Pub-9 X 347-T New Two-Loop Contribution to Electric Dipole Moment in Supersymmetric Theories , 1999 .