Two-dimensional string vacua with Massive Spectrum boson-fermion Degeneracy
Symmetry (MSDS) are explicitly constructed in Type II and Heterotic superstring
theories. The study of their moduli space indicates the existence of large
marginal deformations that connect continuously the initial d=2, MSDS vacua to
higher-dimensional conventional superstring vacua, where spacetime
supersymmetry is spontaneously broken by geometrical fluxes. We find that the
maximally symmetric, d=2, Type II MSDS-vacuum, is in correspondence with the
maximal, N=8, d=4, gauged supergravity, where the supergravity gauging is
induced by the fluxes. This correspondence is extended to less symmetric cases
where the initial MSDS symmetry is reduced by orbifolds. We also exhibit and
analyse thermal interpretations of some Euclidean versions of the models and
identify classes of MSDS vacua that remain tachyon-free under arbitrary
marginal deformations about the extended symmetry point. The connection between
the two-dimensional MSDS vacua and the resulting four-dimensional effective
supergravity theories arises naturally within the context of an adiabatic
cosmological evolution, where the very early Universe is conjectured to be
described by an MSDS-vacuum, while at late cosmological times it is described
by an effective N=1 supergravity theory with spontaneously broken
supersymmetry