Particle theory

Power corrections and the interplay between perturbative and non-perturbative phenomena

Nuclear and Particle Physics Proceedings Elsevier 86:1-3 (2000) 430-436

Authors:

GP Salam, G Zanderighi

Saltatory Relaxation of the Cosmological Constant

ArXiv hep-th/0005276 (2000)

Authors:

Jonathan L Feng, John March-Russell, Savdeep Sethi, Frank Wilczek

Abstract:

We modify and extend an earlier proposal by Brown and Teitelboim to relax the effective cosmological term by nucleation of branes coupled to a three-index gauge potential. Microscopic considerations from string/M theory suggest two major innovations in the framework. First, the dependence of brane properties on the compactification of extra dimensions may generate a very small quantized unit for jumps in the effective cosmological term. Second, internal degrees of freedom for multiply coincident branes may enhance tunneling rates by exponentially large density of states factors. These new features essentially alter the relaxation dynamics. By requiring stability on the scale of the lifetime of the universe, rather than absolute stability, we derive a non-trivial relation between the supersymmetry breaking scale and the value of the cosmological term. It is plausibly, though not certainly, satisfied in Nature.

Saltatory Relaxation of the Cosmological Constant

(2000)

Authors:

Jonathan L Feng, John March-Russell, Savdeep Sethi, Frank Wilczek

The status of NLL BFKL

ArXiv hep-ph/0005304 (2000)

Abstract:

This talk summarises the current status of the NLL corrections to BFKL physics and discusses the question of small-x factorisation.

Cosmic ray signatures of massive relic particles

ArXiv hep-ph/0005256 (2000)

Abstract:

The possibility that the Fermi scale is the only fundamental energy scale of Nature is under serious consideration at present, yet cosmic rays may already have provided direct evidence of new physics at a much higher scale. The recent detection of very high energy particles with no plausible astrophysical sources suggests that these originate from the slow decays of massive particles clustered in the halo of our Galaxy. Such particles had in fact been predicted to exist beforehand with mass and lifetime in the range required to explain the observations. I discuss recent work focussing on experimental tests of this speculative but exciting idea.