Correlations in the wave function of the Universe

Details Correlations in the wave function of the Universe Correlations in the wave function of the Universe

Dec 1987

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1987phrvd..36.3626h&link_type=abstract

Physical Review D (Particles and Fields), Volume 36, Issue 12, 15 December 1987, pp.3626-3640

Physics

135

Particle-Theory And Field-Theory Models Of The Early Universe

Scientific paper

The Everett-type interpretations of quantum mechanics and quantum cosmology proposed independently by Hartle, Geroch, and Wada are discussed. They essentially involve regarding a strong peak in the wave function as a definite prediction. Wave functions in quantum cosmology are usually peaked about correlations between coordinates and momenta, and methods for identifying such correlations are introduced. The first method involves Wigner's function, a quantum-mechanical analogue of the classical phase-space distribution. The properties of this distribution are discussed and it is shown how it can be of use in describing the emergence of classical behavior from quantum systems. The second method involves a suitably chosen canonical transformation. These methods are applied to harmonic-oscillator examples, which are of relevance to scalar field fluctuations in inflationary universe models. These methods are also applied to WKB wave functions in quantum mechanics and quantum cosmology. The manner in which the wave function becomes peaked about sets of classical solutions is elucidated. This is extended to include inhomogeneous perturbations about minisuperspace in quantum cosmology, and the derivation of the semiclassical Einstein equations, Gμν=8πG, from the Wheeler-DeWitt equation is considered. A condition under which they are valid is derived. It is essentially the requirement that the distribution of Tμν, as a function of the matter modes, is strongly peaked about its average value. Some situations in which this condition is satisfied are discussed.

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