Prof Vlatko Vedral FInstP

Transforming pure and mixed states using an NMR quantum homogeniser

(2020)

Authors:

Maria Violaris, Gaurav Bhole, Jonathan A Jones, Vlatko Vedral, Chiara Marletto

Aharonov-Bohm Phase is Locally Generated Like All Other Quantum Phases.

Physical review letters 125:4 (2020) 040401

Authors:

Chiara Marletto, Vlatko Vedral

Abstract:

In the Aharonov-Bohm (AB) effect, a superposed charge acquires a detectable phase by enclosing an infinite solenoid, in a region where the solenoid's electric and magnetic fields are zero. Its generation seems therefore explainable only by the local action of gauge-dependent potentials, not of gauge-independent fields. This was recently challenged by Vaidman, who explained the phase by the solenoid's current interacting with the electron's field (at the solenoid). Still, his model has a residual nonlocality: it does not explain how the phase, generated at the solenoid, is detectable on the charge. In this Letter, we solve this nonlocality explicitly by quantizing the field. We show that the AB phase is mediated locally by the entanglement between the charge and the photons, like all electromagnetic phases. We also predict a gauge-invariant value for the phase difference at each point along the charge's path. We propose a realistic experiment to measure this phase difference locally, by partial quantum state tomography on the charge, without closing the interference loop.

Decoherence of massive superpositions induced by coupling to a quantized gravitational field

(2020)

On the Testability of the Equivalence Principle as a Gauge Principle Detecting the Gravitational t3 Phase

Frontiers in Physics Frontiers 8 (2020) 176

Authors:

Chiara Marletto, Vlatko Vedral

Information Fluctuation Theorem for an Open Quantum Bipartite System

(2020)

Authors:

Jung Jun Park, Hyunchul Nha, Sang Wook Kim, Vlatko Vedral