Giulia RUBINO
Quantum superposition of thermodynamic evolutions with opposing time’s arrows?
Date & heure
31 mars 2022, 14h
Lieu
Campus Pierre & Marie Curie – Place Jussieu – Tour 13/23 salle 210 – 75005 Paris
Accueil
Microscopic physical laws are time-symmetric, hence, a priori there exists no preferential temporal direction. However, the second law of thermodynamics allows one to associate the « forward » temporal direction to a positive variation of the total entropy produced in a thermodynamic process, and a negative variation with its « time-reversal » counterpart.
This definition of a temporal axis is normally considered to apply in both classical and quantum contexts. Yet, quantum physics admits also superpositions between forward and time-reversal processes, whereby the thermodynamic arrow of time becomes quantum-mechanically undefined. In this work, we demonstrate that a definite thermodynamic time’s arrow can be restored by a quantum measurement of entropy production, which effectively projects such superpositions onto the forward (time-reversal) time-direction when large positive (negative) values are measured. Remarkably, for small values (of the order of plus or minus one), the amplitudes of forward and time-reversal processes can interfere, giving rise to entropy-production distributions featuring a more or less reversible process than either of the two components individually, or any classical mixture thereof.