Prof Vlatko Vedral FInstP

Biophotonics: A Nanophotonic Structure Containing Living Photosynthetic Bacteria (Small 38/2017)

Small Wiley 13:38 (2017)

Authors:

David 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

Operational one-to-one mapping between coherence and entanglement measures

PHYSICAL REVIEW A 96:3 (2017) ARTN 032316

Authors:

Huangjun Zhu, Zhihao Ma, Zhu Cao, Shao-Ming Fei, Vlatko Vedral

Quantum effects in the gravitational field

NATURE 549:7670 (2017) 31-31

Authors:

Chiara Marletto, Vlatko Vedral

Organic molecule fluorescence as an experimental test-bed for quantum jumps in thermodynamics

Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences Royal Society 473:2204 (2017) 20170099

Authors:

Cormac Browne, Tristan Farrow, Oscar Dahlsten, Robert Taylor, Vlatko Vedral

Abstract:

We demonstrate with an experiment how molecules are a natural test bed for probing fundamental quantum thermodynamics. Single-molecule spectroscopy has undergone transformative change in the past decade with the advent of techniques permitting individual molecules to be distinguished and probed. We demonstrate that the quantum Jarzynski equality for heat is satisfied in this set-up by considering the time-resolved emission spectrum of organic molecules as arising from quantum jumps between states. This relates the heat dissipated into the environment to the free energy difference between the initial and final state. We demonstrate also how utilizing the quantum Jarzynski equality allows for the detection of energy shifts within a molecule, beyond the relative shift.

Reply to Comment on "Wigner rotations and an apparent paradox in relativistic quantum information"

(2017)

Authors:

Pablo L Saldanha, Vlatko Vedral