Particle theory

On the universality of the Milan factor for 1/Q power corrections to jet shapes

Journal of High Energy Physics Springer Nature 1998:05 (1998) 003

Authors:

Yuri L Dokshitzer, Andrea Lucenti, Giuseppe Marchesini, Gavin P Salam

CP Violation, Higgs Couplings, and Supersymmetry

ArXiv hep-ph/9804355 (1998)

Authors:

KS Babu, Christopher Kolda, John March-Russell, Frank Wilczek

Abstract:

Supersymmetric extensions of the standard model generically contain additional sources of CP violation. We discuss how at one loop a potentially large CP violating coupling of the lightest Higgs, h^0, to leptons is induced in the minimal supersymmetric standard model (MSSM). The CP violating couplings of h^0 in extensions of the MSSM, such as the next-to-minimal supersymmetric standard model (NMSSM) are also considered. We indicate how this CP violation might be observed; in particular a polarization-dependent production asymmetry, in the context of a muon collider, provides a means to access this coupling cleanly. In the MSSM, existing limits on the electric dipole moment (EDM) of the electron, coupled with standard universality assumptions, severly constrains any such signal. Nevertheless, extensions of the MSSM, such as the NMSSM, allow CP-violating signals as large as 100%.

CP Violation, Higgs Couplings, and Supersymmetry

(1998)

Authors:

KS Babu, Christopher Kolda, John March-Russell, Frank Wilczek

Extremely high energy cosmic rays from relic particle decays

ArXiv hep-ph/9804285 (1998)

Authors:

Michael Birkel, Subir Sarkar

Abstract:

The expected proton and neutrino fluxes from decays of massive metastable relic particles is calculated using the HERWIG QCD event generator. The predicted proton spectrum can account for the observed flux of extremely high energy cosmic rays beyond the Greisen-Zatsepin-Kuzmin cutoff, for a decaying particle mass of O(10^{12}) GeV. The lifetime required is of O(10^{20}) yr if such particles constitute all of the dark matter (with a proportionally shorter lifetime for a smaller contribution). Such values are plausible if the metastable particles are hadron-like bound states from the hidden sector of supersymmetry breaking which decay through non-renormalizable interactions. The expected ratio of the proton to neutrino flux is given as a diagonistic of the decaying particle model for the forthcoming Pierre Auger project.

Extremely high energy cosmic rays from relic particle decays

(1998)

Authors:

Michael Birkel, Subir Sarkar