Particle theory

The spectral dimension of non-generic branched polymers

NUCL PHYS B-PROC SUP 73 (1999) 783-785

Authors:

JF Wheater, J Correia

Abstract:

We show that the spectral dimension on non-generic branched polymers with susceptibility exponent gamma > 0 is given by d(s) = 2/(1 + gamma). For those models with gamma < 0 we find that d(s) = 2.

Soft emissions and the equivalence of BFKL and CCFM final states

(1999)

Boundary Inflation

(1999)

Authors:

Andre Lukas, Burt A Ovrut, Daniel Waldram

The ten-dimensional effective action of strongly coupled heterotic string theory

Nuclear Physics B Elsevier 540:1-2 (1999) 230-246

Authors:

André Lukas, Burt A Ovrut, Daniel Waldram

Big bang nucleosynthesis limit on N_nu

ArXiv hep-ph/9901404 (1999)

Authors:

E Lisi, Subir Sarkar, FL Villante

Abstract:

Recently we presented a simple method for determining the correlated uncertainties of the light element abundances expected from big bang nucleosynthesis, which avoids the need for lengthy Monte Carlo simulations. We now extend this approach to consider departures from the Standard Model, in particular to constrain any new light degrees of freedom present in the thermal plasma during nucleosynthesis. Since the observational situation regarding the inferred primordial abundances has not yet stabilized, we present illustrative bounds on the equivalent number of neutrino species N_nu for various combinations of individual abundance determinations. Our 95% C.L. bounds on N_nu range between 2 and 4, and can easily be reevaluated using the technique provided when the abundances are known more accurately.