2 research outputs found
High-Energy gamma-ray Astronomy and String Theory
There have been observations, first from the MAGIC Telescope (July 2005) and
quite recently (September 2008) from the FERMI Satellite Telescope, on
non-simultaneous arrival of high-energy photons from distant celestial sources.
In each case, the highest energy photons were delayed, as compared to their
lower-energy counterparts. Although the astrophysics at the source of these
energetic photons is still not understood, and such non simultaneous arrival
might be due to non simultaneous emission as a result of conventional physics
effects, nevertheless, rather surprisingly, the observed time delays can also
fit excellently some scenarios in quantum gravity, predicting Lorentz violating
space-time "foam" backgrounds with a non-trivial subluminal vacuum refractive
index suppressed linearly by a quantum gravity scale of the order of the
reduced Planck mass. In this pedagogical talk, I discuss the MAGIC and FERMI
findings in this context and I argue on a theoretical model of space-time foam
in string/brane theory that can accommodate the findings of those experiments
in agreement with all other stringent tests of Lorentz invariance. However, I
stress the current ambiguities/uncertainties on the source mechanisms, which
need to be resolved first before definite conclusions are reached regarding
quantum gravity foam scenarios.Comment: 34 pages latex, 12 eps figures incorporated, uses special macros.
Based on invited plenary talk at DICE 2008 Conference (Castiglioncello,
Italy), September 22-26 200
Stringy Space-Time Foam and High-Energy Cosmic Photons
In this review, I discuss briefly stringent tests of Lorentz-violating
quantum space-time foam models inspired from String/Brane theories, provided by
studies of high energy Photons from intense celestial sources, such as Active
Galactic Nuclei or Gamma Ray Bursts. The theoretical models predict
modifications to the radiation dispersion relations, which are quadratically
suppressed by the string mass scale, and time delays in the arrival times of
photons (assumed to be emitted more or less simultaneously from the source),
which are proportional to the photon energy, so that the more energetic photons
arrive later. Although the astrophysics at the source of these energetic
photons is still not understood, and such non simultaneous arrivals, that have
been observed recently, might well be due to non simultaneous emission as a
result of conventional physics effects, nevertheless, rather surprisingly, the
observed time delays can also fit excellently the stringy space-time foam
scenarios, provided the space-time defect foam is inhomogeneous. The key
features of the model, that allow it to evade a plethora of astrophysical
constraints on Lorentz violation, in sharp contrast to other field-theoretic
Lorentz-violating models of quantum gravity, are: (i) transparency of the foam
to electrons and in general charged matter, (ii) absence of birefringence
effects and (iii) a breakdown of the local effective lagrangian formalism.Comment: 26 pages Latex, 4 figures, uses special macros. Keynote Lecture in
the International Conference "Recent Developments in Gravity" (NEB14),
Ioannina (Greece) June 8-11 201