We discuss modifications of the neutrino-nucleon cross section due to a minimal length scale. It is shown that the enhancement of the nu-N cross section due to new physics is suppressed. Especially the potential observation rate of micro black holes at neutrino telescopes is strongly reduced
The IceCube Neutrino Observatory detects neutrinos at energies orders of magnitude higher than those...
Ultralight bosons can grow substantially in the vicinity of a black hole, through superradiant energ...
AbstractIn scenarios with extra dimensions and TeV-scale quantum gravity, black holes are expected t...
We consider the production of black holes caused by the collision between high-energy cosmic neutrin...
If spacetime has more than four dimensions, ultrahigh energy cosmic rays may create microscopic blac...
The ultrahigh energy neutrino cross section is well understood in the standard model for neutrino en...
AbstractLarge extra dimensions lower the Planck scale to values soon accessible. Motivated by string...
AbstractNow that PeV neutrinos have been discovered by IceCube, we optimistically entertain the poss...
We review the perhaps most exciting phenomenology of models with extra spatial dimensions and Planck...
Now that PeV neutrinos have been discovered by IceCube, we optimistically entertain the possibility ...
If extra spacetime dimensions and low-scale gravity exist, black holes will be produced in observabl...
One of the major goals of neutrino astronomy is to explore the otherwise unknown fluxes and interact...
IceCube, a cubic kilometer neutrino telescope will be capable to probe neutrino-nucleon interactions...
If the fundamental Planck scale is about a TeV and the cosmic neutrino flux is at the Waxman-Bahcall...
We examine the dependence of event rates at neutrino telescopes on the neutrino-nucleon cross sectio...
The IceCube Neutrino Observatory detects neutrinos at energies orders of magnitude higher than those...
Ultralight bosons can grow substantially in the vicinity of a black hole, through superradiant energ...
AbstractIn scenarios with extra dimensions and TeV-scale quantum gravity, black holes are expected t...
We consider the production of black holes caused by the collision between high-energy cosmic neutrin...
If spacetime has more than four dimensions, ultrahigh energy cosmic rays may create microscopic blac...
The ultrahigh energy neutrino cross section is well understood in the standard model for neutrino en...
AbstractLarge extra dimensions lower the Planck scale to values soon accessible. Motivated by string...
AbstractNow that PeV neutrinos have been discovered by IceCube, we optimistically entertain the poss...
We review the perhaps most exciting phenomenology of models with extra spatial dimensions and Planck...
Now that PeV neutrinos have been discovered by IceCube, we optimistically entertain the possibility ...
If extra spacetime dimensions and low-scale gravity exist, black holes will be produced in observabl...
One of the major goals of neutrino astronomy is to explore the otherwise unknown fluxes and interact...
IceCube, a cubic kilometer neutrino telescope will be capable to probe neutrino-nucleon interactions...
If the fundamental Planck scale is about a TeV and the cosmic neutrino flux is at the Waxman-Bahcall...
We examine the dependence of event rates at neutrino telescopes on the neutrino-nucleon cross sectio...
The IceCube Neutrino Observatory detects neutrinos at energies orders of magnitude higher than those...
Ultralight bosons can grow substantially in the vicinity of a black hole, through superradiant energ...
AbstractIn scenarios with extra dimensions and TeV-scale quantum gravity, black holes are expected t...
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