T-Duality Selection of a Disformal Effective Metric in String Gas Cosmology

Abstract

We study a restricted disformal completion of string-frame string gas cosmology in which the light sector propagates on an effective metric with matter-cone opening c(ϕ). Requiring the gravitational coupling A(ϕ)=e-2ϕc(ϕ)4 to transform multiplicatively under T-duality reduces the problem to an exponential Cauchy equation, whose unique continuous solution is c(ϕ)=c0 e-αϕ. The coupling is therefore duality-selected, not assumed. Its magnitude α is UV-sensitive: a varying matter cone does not arise from the Weyl-invariant tree-level gauge action, but instead reflects higher-derivative and string-scale corrections. We then develop the structural consequences of this result. In the Einstein frame the dilaton remains healthy, with non-ghost kinetic coefficient K(α)=32(2+4α)2-4 2 for all α0. T-duality also defines a duality-invariant light-cone variable c, which provides a compact way to track the matter cone through duality-related branches and toward the self-dual point. As a controlled application on the analytic Hagedorn background, the wider early-time matter cone enlarges the comoving causal horizon by finite factors 1.15 and 1.52 for α=0.5 and 1, respectively, when the controlled phase is initialized at ti=0.02\,t0; for α1.15, the cumulative horizon becomes dominated by the earliest times and correspondingly sensitive to the initial cutoff. The enhancement is therefore self-limiting through string-gas backreaction. Throughout, the construction is interpreted as an effective-metric statement in the controlled weak-coupling regime, not as a fundamental variation of the speed of light, with matching across the self-dual transition left as the main open problem.