Prof Subir Sarkar

Measuring the cosmological density perturbation

NUCL PHYS B-PROC SUP 148 (2005) 1-6

Abstract:

Precision measurements of anisotropies in the cosmic microwave background and of the clustering of largescale structure have supposedly confirmed that the primordial density perturbation has a (nearly) scale-invariant spectrum. However this conclusion is based on assumptions about the world model and the nature of the dark matter. Physical models of inflation suggest that the spectrum may not in fact be scale-free, which would imply rather different cosmological parameters on the basis of the same observational data.

Exotic Neutrino Interactions at the Pierre Auger Observatory

ArXiv hep-ph/0508312 (2005)

Authors:

Luis Anchordoqui, Tao Han, Dan Hooper, Subir Sarkar

Abstract:

The Pierre Auger Observatory for cosmic rays provides a laboratory for studying fundamental interactions at energies well beyond those available at colliders. In addition to hadrons or photons, Auger is sensitive to ultra-high energy neutrinos in the cosmic radiation and models for new physics can be explored by observing neutrino interactions at center-of-mass energies beyond the TeV scale. By comparing the rate for quasi-horizontal, deeply penetrating air showers triggered by all types of neutrinos with the rate for slightly upgoing showers generated by Earth-skimming tau neutrinos, any deviation of the neutrino-nucleon cross-section from the Standard Model expectation can be constrained. We show that this can test models of low-scale quantum gravity (including processes such as Kaluza-Klein graviton exchange, microscopic black hole production and string resonances), as well as non-perturbative electroweak instanton mediated processes. Moreover, the observed ratios of neutrino flavors would severely constrain the possibility of neutrino decay.

Exotic Neutrino Interactions at the Pierre Auger Observatory

(2005)

Authors:

Luis Anchordoqui, Tao Han, Dan Hooper, Subir Sarkar

Probing Planck scale physics with IceCube

ArXiv hep-ph/0506168 (2005)

Authors:

Luis A Anchordoqui, Haim Goldberg, MC Gonzalez-Garcia, Francis Halzen, Dan Hooper, Subir Sarkar, Thomas J Weiler

Abstract:

Neutrino oscillations can be affected by decoherence induced e.g. by Planck scale suppressed interactions with the space-time foam predicted in some approaches to quantum gravity. We study the prospects for observing such effects at IceCube, using the likely flux of TeV antineutrinos from the Cygnus spiral arm. We formulate the statistical analysis for evaluating the sensitivity to quantum decoherence in the presence of the background from atmospheric neutrinos, as well as from plausible cosmic neutrino sources. We demonstrate that IceCube will improve the sensitivity to decoherence effects of ${\cal O}(E^2/M_{\rm Pl})$ by 17 orders of magnitude over present limits and, moreover, that it can probe decoherence effects of ${\cal O}(E^3/M_{\rm Pl}^2)$ which are well beyond the reach of other experiments.

Probing Planck scale physics with IceCube

(2005)

Authors:

Luis A Anchordoqui, Haim Goldberg, MC Gonzalez-Garcia, Francis Halzen, Dan Hooper, Subir Sarkar, Thomas J Weiler