Inflation in an exponential-potential scalar field model
- Joseph Henry Laboratories, Department of Physics, Princeton University, Princeton, New Jersey 08544 (United States)
A spatially flat cosmological scalar field ({Phi}) model with the scalar field potential {proportional to}exp({minus}{Phi}/ {radical}{ital p} ), {ital p}{gt}1 provides a simple class of inflationary cosmologies (which includes the usual exponential expansion inflation) that may be used as an analytical testing ground to help understand the predictions of the inflation model of the very early Universe. We divide the evolution of this model into three distinct epochs: scalar-field dominance and conventional radiation and baryon dominance; in each epoch we only account for irregularities in the dominant form of matter. We present closed-form solutions of the (synchronous gauge) relativistic linear perturbation equations that govern the evolution of inhomogeneities. These classical solutions, augmented with quantum-mechanically motivated initial conditions and joining conditions to match the expressions for the irregularities at the scalar-field--radiation and radiation-baryon transitions, are used to estimate the large-time form of the spectrum of energy-density irregularities, of the local departure velocity from homogeneous expansion, of large-scale fluctuations in the microwave background temperature, and of the gravitational-wave energy density. The inflation epoch results agree with those found from a purely quantum-mechanical analysis. Depending on the value of {ital p} this model can have more large-scale power than the usual scale-invariant spectrum (at the expense of less small-scale power) and would seem to be marginally better at forming large-scale structure than the canonical model; however, the decrease in small-scale power serves to exacerbate the problem of late galaxy formation. As the model approaches the exponential expansion inflation limit, the power spectrum tends towards the scale-invariant form, although, in this limit the numerical prefactor diverges.
- DOE Contract Number:
- AC02-76ER03072
- OSTI ID:
- 7044486
- Journal Information:
- Physical Review, D (Particles Fields); (United States), Vol. 45:6; ISSN 0556-2821
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
71 CLASSICAL AND QUANTUM MECHANICS
GENERAL PHYSICS
COSMOLOGICAL MODELS
SCALAR FIELDS
INFLATIONARY UNIVERSE
BARYONS
ENERGY DENSITY
GALAXIES
GRAVITATIONAL WAVES
HUBBLE EFFECT
PERTURBATION THEORY
POTENTIALS
POWER DISTRIBUTION
QUANTUM MECHANICS
UNIVERSE
ELEMENTARY PARTICLES
FERMIONS
HADRONS
MATHEMATICAL MODELS
MECHANICS
662110* - General Theory of Particles & Fields- Theory of Fields & Strings- (1992-)
661100 - Classical & Quantum Mechanics- (1992-)