Abstract
The Swampland Distance Conjecture (SDC) constraints the dynamics emerging at infinite distances in field space of any effective field theory consistent with quantum gravity. It provides a relation between the cut-off in energies and the field range which, as we show, in the context of inflation it yields a universal upper bound on the inflaton excursion in terms of the tensor-to-scalar ratio, measured at typical CMB scales. In this note, we investigate the interplay between the SDC and the emergent inflationary physics around infinite distances singularities in string theory, with a special look at its significance for the α-attractor scenario of inflation. We show that the conjecture itself suggests that inflation may arise as an infinite distance phenomenon with the asymptotic kinetic structure typical of α-attractors. Furthermore, we argue that a proper string realisation of these cosmological models in Calabi-Yau manifolds should occur around infinite field distance singularities. However, such constructions typically imply that inflation should not take place in the limit where the inflaton kinetic term develops a pole but rather in the opposite regime. Finally, we study the constraints that the SDC poses on α-attractors and show that they still leave considerable room for compatibility with observations.
Highlights
The Swampland Distance Conjecture (SDC) [2] is a proposal for such a quantum gravity constraint
Any attempt to give a universal value for λ will imply to constrain both the geometry of the scalar manifold as well as the type of scalar potential that can arise from string theory, effectively constraining the type of trajectories allowed by quantum gravity
In this paper we have discussed the interplay between the Swampland Distance Conjecture, the physics at infinite distance singularities and its implications for inflation
Summary
The Swampland Distance Conjecture, proposed in [2], states that in an effective quantum field theory that can arise from string theory, infinite distances in moduli space lead to an infinite tower of states becoming massless exponentially fast in the proper field distance. The species scale indicates the scale at which quantum gravitational effects cannot be ignored due to the increasing number of light fields weakly coupled to gravity. Evidence for this identification can be found in [3] and has been used in [40]. Gravity becomes strongly coupled and any possible quantum field theory description completely breaks down. This drop-off of the quantum gravity cut-off cannot be seen from the point of view of the effective field theory (in the absence of quantum gravity), as expected from any swampland criterium
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
