The Large Number Limit of Multifield Inflation

Abstract

We compute the tensor and scalar spectral index nt, ns, the tensor-to-scalar ratio r, the consistency relation nt/r in the general monomial multifield slow-roll inflation models with potentials V Σiλi |φi|pi. The general models give a novel relation that nt, ns and nt/r are all proportional to the logarithm of the number of fields Nf when Nf is getting extremely large with the order of magnitude around O(1040). An upper bound Nf N*eZN* is given by requiring the slow variation parameter small enough where N* is the e-folding number and Z is a function of distributions of λi and pi. Besides, nt/r differs from the single-field result -1/8 with substantial probability except for a few very special cases. Finally, we derive theoretical bounds r>2/N* (r0.03) and for nt which can be tested by observation in the near future.