Particle theory

The phenomenology of lepton flavored dark matter

AIP Conference Proceedings AIP Publishing 1534:1 (2013) 5-14

Authors:

Prateek Agrawal, Steve Blanchet, Zackaria Chacko, Can Kilic

Does Dark Energy Really Exist?

Scientific American Springer Nature 22:2s (2013) 58-65

Authors:

Timothy Clifton, Pedro G Ferreira

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

Measurement of Atmospheric Neutrino Oscillations with IceCube

ArXiv 1305.3909 (2013)

Abstract:

We present the first statistically significant detection of neutrino oscillations in the high-energy regime ($>$ 20 GeV) from an analysis of IceCube Neutrino Observatory data collected in 2010-2011. This measurement is made possible by the low energy threshold of the DeepCore detector ($\sim 20$ GeV) and benefits from the use of the IceCube detector as a veto against cosmic ray-induced muon background. The oscillation signal was detected within a low-energy muon neutrino sample (20 -- 100 GeV) extracted from data collected by DeepCore. A high-energy muon neutrino sample (100 GeV -- 10 TeV) was extracted from IceCube data to constrain systematic uncertainties. Disappearance of low-energy upward-going muon neutrinos was observed, and the non-oscillation hypothesis is rejected with more than $5\sigma$ significance. In a two-neutrino flavor formalism, our data are best described by the atmospheric neutrino oscillation parameters $\Delta m^2_{23}= (2.3^{+0.6}_{-0.5})\cdot 10^{-3}$ eV$^2$ and $\sin^2(2 \theta_{23})>0.93$, and maximum mixing is favored.