Behavior of Friedmann-Robertson-Walker Cosmological Models in Scalar-Tensor Gravity
We analyze solutions to Friedmann-Robertson-Walker cosmologies in Brans-Dicke theory, where a scalar field is coupled to gravity. Matter is modelled by a γ-law perfect fluid, including false-vacuum energy as a special case. Through a change of variables, we reduce the field equations from fourth ord...
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| Veröffentlicht in: | Annals of physics 1995-07, Vol.241 (1), p.128-151 |
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| creator | Kolitch, S.J. Eardley, D.M. |
| description | We analyze solutions to Friedmann-Robertson-Walker cosmologies in Brans-Dicke theory, where a scalar field is coupled to gravity. Matter is modelled by a γ-law perfect fluid, including false-vacuum energy as a special case. Through a change of variables, we reduce the field equations from fourth order to second order, and they become equivalent to a two-dimensional dynamical system. We then analyze the entire solution space of this dynamical system and find that many qualitative features of these cosmologies can be gleaned, including standard non-inflationary or extended inflationary expansion, but also including bifurcations of stable or unstable expansion or contraction, noninflationary vacuum-energy dominated models, and several varieties of "coasting," "bouncing," "hesitating," and "vacillating" universes. It is shown that inflationary dogma, which states that a universe with curvature and dominated by inflationary matter will always approach a corresponding flat-space solution at late times, does not hold in general for the scalar-tensor theory, but rather that the occurrence of inflation depends upon the initial energy of the scalar field relative to the expansion rate. In the case of flat space (
k = 0), the dynamical system formalism generates some previously known exact power-law solutions. |
| doi_str_mv | 10.1006/aphy.1995.1058 |
| format | Article |
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| title | Behavior of Friedmann-Robertson-Walker Cosmological Models in Scalar-Tensor Gravity |
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