Attractor solutions in scalar-field cosmology

Creators: Remmen, Grant N.; Carroll, Sean M.

Abstract

Models of cosmological scalar fields often feature "attractor solutions" to which the system evolves for a wide range of initial conditions. There is some tension between this well-known fact and another well-known fact: Liouville's theorem forbids true attractor behavior in a Hamiltonian system. In universes with vanishing spatial curvature, the field variables ϕ and ϕ˙ specify the system completely, defining an effective phase space. We investigate whether one can define a unique conserved measure on this effective phase space, showing that it exists for m^2ϕ^2 potentials and deriving conditions for its existence in more general theories. We show that apparent attractors are places where this conserved measure diverges in the ϕ-ϕ˙ variables and suggest a physical understanding of attractor behavior that is compatible with Liouville's theorem.

Additional Information

© 2013 American Physical Society. Received 11 September 2013; published 18 October 2013. We thank Alan Guth and Chien-Yao Tseng for helpful conversations. G.N.R. is supported by a Hertz Graduate Fellowship and a NSF Graduate Research Fellowship. This material is based upon work supported by the National Science Foundation Graduate Research Fellowship Program under Grant No. DGE-1144469, by DOE Grant No. DE-FG02-92ER40701, and by the Gordon and Betty Moore Foundation through Grant No. 776 to the Caltech Moore Center for Theoretical Cosmology and Physics.

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Published - PhysRevD.88.083518.pdf

Submitted - 1309.2611v1.pdf

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PhysRevD.88.083518.pdf

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