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The de Broglie–Bohm Quantum Theory and Its Application to Quantum Cosmology

Nelson Pinto-Neto

2021Universe19 citationsDOIOpen Access PDF

Abstract

We review the de Broglie–Bohm quantum theory. It is an alternative description of quantum phenomena in accordance with all the quantum experiments already performed. Essentially, it is a dynamical theory about objectively real trajectories in the configuration space of the physical system under investigation. Hence, it is not necessarily probabilistic, and it dispenses with the collapse postulate, making it suitable to be applied to cosmology. The emerging cosmological models are usually free of singularities, with a bounce connecting a contracting era with an expanding phase, which we are now observing. A theory of cosmological perturbations can also be constructed under this framework, which can be successfully confronted with current observations, and can complement inflation or even be an alternative to it.

Topics & Concepts

PhysicsQuantum cosmologyTheoretical physicsInflation (cosmology)QuantumQuantum gravityOpen quantum systemQuantization (signal processing)CosmologyClassical mechanicsQuantum processLoop quantum cosmologyComplement (music)Quantum field theoryQuantum mechanicsSpace (punctuation)Quantum dissipationRelationship between string theory and quantum field theoryQuantum dynamicsQuantum probabilityQuantum geometryCurrent (fluid)Cosmological modelQuantum stateQuantum field theory in curved spacetimeQuantum Mechanics and ApplicationsRelativity and Gravitational TheoryCosmology and Gravitation Theories