Two-field axion-monodromy hybrid inflation model: Dante's Waterfall

Authors

Christopher D. Carone, William & Mary
Joshua Erlich, William & Mary
Anuraag Sensharma, William & Mary
Zhen Wang, William & Mary

Document Type

Article

Department/Program

Physics

Journal Title

Physical Review D

Pub Date

2015

Volume

91

Issue

4

Abstract

We describe a hybrid axion-monodromy inflation model motivated by the Dante's Inferno scenario. In Dante's Inferno, a two-field potential features a stable trench along which a linear combination of the two fields slowly rolls, rendering the dynamics essentially identical to that of single-field chaotic inflation. A shift symmetry allows for the Lyth bound to be effectively evaded as in other axion-monodromy models. In our proposal, the potential is concave downward near the origin and the inflaton trajectory is a gradual downward spiral, ending at a point where the trench becomes unstable. There, the fields begin falling rapidly towards the minimum of the potential and inflation terminates as in a hybrid model. We find parameter choices that reproduce observed features of the cosmic microwave background, and discuss our model in light of recent results from the BICEP2 and Planck experiments.

Recommended Citation

Carone, Christopher D.; Erlich, Joshua; Sensharma, Anuraag; and Wang, Zhen, Two-field axion-monodromy hybrid inflation model: Dante's Waterfall (2015). Physical Review D, 91(4).
10.1103/PhysRevD.91.043512

DOI

10.1103/PhysRevD.91.043512