Particle theory

Axion decay constants away from the lamppost

Journal of High Energy Physics (2016)

Authors:

Joseph Conlon, Sven Krippendorf

Abstract:

© 2016, The Author(s).Abstract: It is unknown whether a bound on axion field ranges exists within quantum gravity. We study axion field ranges using extended supersymmetry, in particular allowing an analysis within strongly coupled regions of moduli space. We apply this strategy to Calabi-Yau compactifications with one and two Kähler moduli. We relate the maximally allowable decay constant to geometric properties of the underlying Calabi-Yau geometry. In all examples we find a maximal field range close to the reduced Planck mass (with the largest field range being 3.25 MP). On this perspective, field ranges relate to the intersection and instanton numbers of the underlying Calabi-Yau geometry.

Improved limits on dark matter annihilation in the Sun with the 79-string IceCube detector and implications for supersymmetry

Journal of Cosmology and Astroparticle Physics IOP PUblishing 2016:04 (2016) 022-022

Authors:

Mg Aartsen, K Abraham, M Ackermann, Subir Sarkar, Et al.

Abstract:

We present an improved event-level likelihood formalism for including neutrino telescope data in global fits to new physics. We derive limits on spin-dependent dark matter-proton scattering by employing the new formalism in a re-analysis of data from the 79-string IceCube search for dark matter annihilation in the Sun, including explicit energy information for each event. The new analysis excludes a number of models in the weak-scale minimal supersymmetric standard model (MSSM) for the first time. This work is accompanied by the public release of the 79-string IceCube data, as well as an associated computer code for applying the new likelihood to arbitrary dark matter models.

The massless spectrum of heterotic compactifications

Fortschritte der Physik Wiley 64:4-5 (2016) 365-366

Authors:

Xenia de la Ossa, Edward Hardy, Eirik Eik Svanes

Baryogenesis via Particle-Antiparticle Oscillations

(2016)

Authors:

Seyda Ipek, John March-Russell

Neutrino oscillation studies with IceCube-DeepCore

Nuclear Physics B Elsevier 908 (2016) 161-177

Authors:

MG Aartsen, K Abraham, M Ackermann, Subir Sarkar

Abstract:

IceCube, a gigaton-scale neutrino detector located at the South Pole, was primarily designed to search for astrophysical neutrinos with energies of PeV and higher. This goal has been achieved with the detection of the highest energy neutrinos to date. At the other end of the energy spectrum, the DeepCore extension lowers the energy threshold of the detector to approximately 10 GeV and opens the door for oscillation studies using atmospheric neutrinos. An analysis of the disappearance of these neutrinos has been completed, with the results produced being complementary with dedicated oscillation experiments. Following a review of the detector principle and performance, the method used to make these calculations, as well as the results, is detailed. Finally, the future prospects of IceCube-DeepCore and the next generation of neutrino experiments at the South Pole (IceCube-Gen2, specifically the PINGU sub-detector) are briefly discussed.