Abstract
In this work, we address the question of how a closed quantum system thermalizes in the presence of a random external potential. By investigating the quench dynamics of the isolated quantum spherical p-spin model, a paradigmatic model of a mean-field glass, we aim to shed new light on this complex problem. Employing a closed-time Schwinger-Keldysh path integral formalism, we first initialize the system in a random, infinite-temperature configuration and allow it to equilibrate in contact with a thermal bath before switching off the bath and performing a quench. We find evidence that increasing the strength of either the interactions or the quantum fluctuations can act to lower the effective temperature of the isolated system and stabilize glassy behavior.
| Original language | English |
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| Article number | 120602 |
| Journal | Physical Review Letters |
| Volume | 125 |
| Issue number | 12 |
| DOIs | |
| Publication status | Published - 15 Sept 2020 |
| Externally published | Yes |