Lídia del Rio

TL;DR: This topical review article gives an overview of the interplay between quantum information theory and thermodynamics of quantum systems, including the foundations of statistical mechanics, resource theories, entanglement in thermodynamic settings, fluctuation theorems and thermal machines.

TL;DR: In this paper, an overview of the interplay between quantum information theory and thermodynamics of quantum systems is presented. But this is not a comprehensive review of the diverse field of quantum thermodynamics; rather, it is a convenient entry point for the thermo-curious information theorist.

TL;DR: The main result is that the work cost of erasure is determined by the entropy of the system, conditioned on the quantum information an observer has about it, which gives a direct thermodynamic significance to conditional entropies, originally introduced in information theory.

TL;DR: In this article, a neural network architecture based on the human physical reasoning process is proposed for scientific discovery from experimental data without making prior assumptions about the system, which can help to gain conceptual insights.

TL;DR: A set of laws for general quantum resource theories, which generalise the laws of thermodynamics are derived, which first test on thermodynamics with multiple conservation laws, and then apply to the theory of local operations under energetic restrictions.