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Talk: Davide Romano (Université Grenoble-Alps)

Location: Ludwigstr. 31, ground floor, Room 021.

20.11.2024 at 16:00 

Title:

The Quantum Origin of Time’s Arrow

Abstract:

The problem of time's arrow is (roughly) to understand why macroscopic physical processes typically evolve in a specific direction (the one we call "the future") even though the underlying laws of physics describing the individual microscopic systems are time-reversal invariant. The standard answer to this problem is given by Boltzmann's explanation of the Il law of thermodynamics: a classical system starting in a non-equilibrium state spontaneously (i.e. with a high level of probability) tends towards equilibrium, thus implementing an irreversible process. However, this explanation has two drawbacks: 1. it needs a further assumption on the entropy of the initial state of the
universe (past hypothesis); 2. microscopic systems (e.g. molecules in a box) should be represented as quantum states and not classical states. In this talk, I want to propose a different hypothesis to explain the origin of time's arrow, based on quantum mechanics, specifically on decoherence theory. Differently from isolated systems, open quantum systems described by decoherence theory show irreversible behavior, as they evolve towards decoherence and von Neumann entropy increase. Is this behavior a sign of genuine irreversibility? And, if so, can this be linked to thermodynamic irreversibility?