Particle theory

Constraints on Axion-Like Particles from X-ray Observations of NGC1275

(2016)

Authors:

Marcus Berg, Joseph P Conlon, Francesca Day, Nicholas Jennings, Sven Krippendorf, Andrew J Powell, Markus Rummel

Diphotons from diaxions

Journal of High Energy Physics Springer Nature 2016:5 (2016) 77

Authors:

Luis Aparicio, Aleksandr Azatov, Edward Hardy, Andrea Romanino

Non-standard neutrino interactions in IceCube

Journal of Physics Conference Series IOP Publishing 718:6 (2016) 062011

Authors:

Melanie Day, IceCube Collaboration

Jet-vetoed Higgs cross section in gluon fusion at N3LO+NNLL with small-R resummation

Journal of High Energy Physics Springer Verlag 2016:4 (2016) 1-31

Authors:

A Banfi, F Caola, Frederic Dreyer, PF Monni, Gavin Salam, G Zanderighi, F Dulat

Abstract:

We present new results for the jet-veto efficiency and zero-jet cross section in Higgs production through gluon fusion. We incorporate the N3LO corrections to the total cross section, the NNLO corrections to the 1-jet rate, NNLL resummation for the jet p t and LL resummation for the jet radius dependence. Our results include known finite-mass corrections and are obtained using the jet-veto efficiency method, updated relative to earlier work to take into account what has been learnt from the new precision calculations that we include. For 13 TeV collisions and using our default choice for the renormalisation and factorisation scales, μ 0 = m H /2, the matched prediction for the jet-veto efficiency increases the pure N3LO prediction by about 2% and the two have comparable uncertainties. Relative to NNLO+NNLL results, the new prediction is 2% smaller and the uncertainty reduces from about 10% to a few percent. Results are also presented for the central scale μ 0 = m H .

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.