Prof Vlatko Vedral FInstP

Why we need to quantise everything, including gravity

(2017)

Authors:

Chiara Marletto, Vlatko Vedral

Information-theoretic equilibrium and observable thermalization.

Scientific reports 7 (2017) 44066-44066

Authors:

F Anzà, V Vedral

Abstract:

A crucial point in statistical mechanics is the definition of the notion of thermal equilibrium, which can be given as the state that maximises the von Neumann entropy, under the validity of some constraints. Arguing that such a notion can never be experimentally probed, in this paper we propose a new notion of thermal equilibrium, focused on observables rather than on the full state of the quantum system. We characterise such notion of thermal equilibrium for an arbitrary observable via the maximisation of its Shannon entropy and we bring to light the thermal properties that it heralds. The relation with Gibbs ensembles is studied and understood. We apply such a notion of equilibrium to a closed quantum system and show that there is always a class of observables which exhibits thermal equilibrium properties and we give a recipe to explicitly construct them. Eventually, an intimate connection with the Eigenstate Thermalisation Hypothesis is brought to light.

Emergence of correlated proton tunneling in water ice

(2017)

Authors:

Onur Pusuluk, Tristan Farrow, Cemsinan Deliduman, Vlatko Vedral

Proton tunneling in hydrogen bonds and its implications in an induced-fit model of enzyme catalysis

(2017)

Authors:

Onur Pusuluk, Tristan Farrow, Cemsinan Deliduman, Keith Burnett, Vlatko Vedral

Local reversibility and entanglement structure of many-body ground states

QUANTUM SCIENCE AND TECHNOLOGY 2:1 (2017) UNSP 015005

Authors:

Tomotaka Kuwahara, Itai Arad, Luigi Amico, Vlatko Vedral