Litcius/Paper detail

Multi-field inflation in high-slope potentials

Vikas Aragam, Sonia Paban, Robert Rosati

2020Journal of Cosmology and Astroparticle Physics31 citationsDOIOpen Access PDF

Abstract

We present two families of multi-field potentials that support inflation while satisfying the refined de Sitter and the distance swampland conjectures. Both families feature Planck-compatible phenomenology. The first is a helix-type potential, in a flat field-space metric, that satisfies the conjectures via a high turning rate. This model has a tensor-toscalar ratio close to, but below, the current experimental limits and small non-gaussianities. The second family, an example of orbital inflation, utilizes a negatively curved field metric to achieve prolonged inflation with nontrivial turning in the presence of a tachyonic direction. Although perturbations in this model undergo an exponential growth before horizon exit, it is always possible to match the measured amplitude of the power spectrum by lowering the scale of inflation if the turning rate is low enough. We identify a Planck-compatible region of parameter space in which the scale of inflation is above that of nucleosynthesis. Due to the rapid growth, this model predicts an exponentially suppressed value for the tensor-to-scalar ratio.

Topics & Concepts

PhysicsInflation (cosmology)Parameter spaceMetric (unit)AmplitudeSpectral densityDe Sitter universeExponential functionSlow rollField (mathematics)HorizonScale (ratio)Theoretical physicsSpace (punctuation)Extra dimensionsSpectrum (functional analysis)De Sitter spaceStatistical physicsPrimordial fluctuationsZero (linguistics)Current (fluid)Value (mathematics)Classical mechanicsCosmologyQuantum electrodynamicsExponential growthPower lawPower (physics)Cosmological modelFeature (linguistics)Cosmology and Gravitation TheoriesBlack Holes and Theoretical PhysicsGalaxies: Formation, Evolution, Phenomena