Professor Joseph Conlon

A Note on the Magnitude of the Flux Superpotential

(2013)

Authors:

Michele Cicoli, Joseph P Conlon, Anshuman Maharana, Fernando Quevedo

Excess Astrophysical Photons from a 0.1–1 keV Cosmic Axion Background

Physics Review Letters 111 (2013) 15130

Authors:

J Conlon, MCD Marsh

Loop corrections to Delta N_eff in large volume models

ArXiv 1305.4128 (2013)

Authors:

Stephen Angus, Joseph P Conlon, Ulrich Haisch, Andrew J Powell

Abstract:

In large volume models reheating is driven by the decays of the volume modulus to the visible sector, while the decays to its axion partners result in dark radiation. In this article we discuss the impact of loop corrections on the only model-independent visible decay channel: the decay into Higgs pairs via a Giudice-Masiero term. Including such radiative effects leads to a more precise determination of the relative fraction of dark radiation, since by contrast all loop corrections to the volume axion decay mode are Planck suppressed. Assuming an MSSM spectrum and that the Giudice-Masiero coupling is fixed at the string scale by a shift symmetry in the Higgs sector, we arrive at a prediction for the effective number of neutrinos. The result turns out to be too large to be consistent with data, highly disfavouring the minimal model.

Loop corrections to Delta N_eff in large volume models

(2013)

Authors:

Stephen Angus, Joseph P Conlon, Ulrich Haisch, Andrew J Powell

Searching for a 0.1-1 keV Cosmic Axion Background

ArXiv 1305.3603 (2013)

Authors:

Joseph P Conlon, MC David Marsh

Abstract:

Primordial decays of string theory moduli at z \sim 10^{12} naturally generate a dark radiation Cosmic Axion Background (CAB) with 0.1 - 1 keV energies. This CAB can be detected through axion-photon conversion in astrophysical magnetic fields to give quasi-thermal excesses in the extreme ultraviolet and soft X-ray bands. Substantial and observable luminosities may be generated even for axion-photon couplings \ll 10^{-11} GeV^{-1}. We propose that axion-photon conversion may explain the observed excess emission of soft X-rays from galaxy clusters, and may also contribute to the diffuse unresolved cosmic X-ray background. We list a number of correlated predictions of the scenario.