Frontiers of quantum physics

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

Witnessing multipartite entanglement by detecting asymmetry

Entropy MDPI 19:3 (2017) 124-124

Authors:

Davide Girolami, Benjamin Yadin

Abstract:

The characterization of quantum coherence in the context of quantum information theory and its interplay with quantum correlations is currently subject of intense study. Coherence in an Hamiltonian eigenbasis yields asymmetry, the ability of a quantum system to break a dynamical symmetry generated by the Hamiltonian. We here propose an experimental strategy to witness multipartite entanglement in many-body systems by evaluating the asymmetry with respect to an additive Hamiltonian. We test our scheme by simulating asymmetry and entanglement detection in a three-qubit GHZ-diagonal state.

Entanglement between living bacteria and quantized light witnessed by Rabi splitting

(2017)

Authors:

C Marletto, DM Coles, T Farrow, V Vedral

Beyond Initial Conditions and Laws of Motion: Constructor Theory of Information and Life

Chapter in From Matter to Life, Cambridge University Press (CUP) (2017) 38-58

Evolution without evolution and without ambiguities

Physical Review D American Physical Society 95:4 (2017) 043510

Authors:

Chiara Marletto, Vlatko Vedral

Abstract:

In quantum theory it is possible to explain time, and dynamics, in terms of entanglement. This is the timeless approach to time, which assumes that the universe is in a stationary state, where two noninteracting subsystems, the "clock" and the "rest," are entangled. As a consequence, by choosing a suitable observable of the clock, the relative state of the rest of the universe evolves unitarily with respect to the variable labeling the clock observable's eigenstates, which is then interpreted as time. This model for an "evolution without evolution" (Page and Wootters, 1983), albeit elegant, has never been developed further, because it was criticized for generating severe ambiguities in the dynamics of the rest of the universe. In this paper we show that there are no such ambiguities; we also update the model, making it amenable to possible new applications.