📝 SummarXiv

Abstract

We develop a quantum-cosmological framework in which the inflationary potential emerges from the structure of the wave function of the universe rather than being postulated. Starting from the Wheeler-DeWitt equation for a flat Friedmann-Robertson-Walker minisuperspace, we express the wave function in terms of an amplitude and a phase and, in a semiclassical regime where the expansion dominates the field's evolution, separate these into purely geometric and purely field-dependent pieces. This yields a closed expression for an emergent potential that makes transparent the roles of the cosmological constant, the momenta associated with expansion and field dynamics, and quantum corrections from the amplitude. Slow-roll conditions follow from properties of the phase and amplitude, leading to wave-function-level expressions for the usual slow-roll parameters and to direct links between cosmic microwave background observables and derivatives of the phase. The approach ties inflation to the quantum state of the universe and suggests testable relationships between cosmological data and features of the wave function.