Frontiers of quantum physics

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.

Evolution without evolution and without ambiguities

PHYSICAL REVIEW D 95:4 (2017) ARTN 043510

Authors:

C Marletto, V Vedral

Using quantum theory to simplify input-output processes

NPJ QUANTUM INFORMATION 3 (2017) ARTN 6

Authors:

Jayne Thompson, Andrew JP Garner, Vlatko Vedral, Mile Gu

Polaritons in Living Systems: Modifying Energy Landscapes in Photosynthetic Organisms Using a Photonic Structure

(2017)

Authors:

David M Coles, Lucas C Flatten, Thomas Sydney, Emily Hounslow, Semion K Saikin, Alán Aspuru-Guzik, Vlatko Vedral, Joseph Kuo-Hsiang Tang, Robert A Taylor, Jason M Smith, David G Lidzey

Foundations of Quantum Discord

(2017)