Frontiers of quantum physics

Measuring quantumness: from theory to observability in interferometric setups

EUROPEAN PHYSICAL JOURNAL D 72:12 (2018) ARTN 219

Authors:

Leonardo Ferro, Rosario Fazio, Fabrizio Illuminati, Giuseppe Marmo, Saverio Pascazio, Vlatko Vedral

Non-commuting degrees of freedom in linear quantum gravity

(2018)

Authors:

Chiara Marletto, Vlatko Vedral

Experimental test of the relation between coherence and path information

Communications Physics 1:1 (2018)

Authors:

J Gao, ZQ Jiao, CQ Hu, LF Qiao, RJ Ren, H Tang, ZH Ma, SM Fei, V Vedral, XM Jin

Abstract:

© 2018, The Author(s). Quantum coherence stemming from the superposition behaviour of a particle beyond the classical realm, serves as one of the most fundamental features in quantum mechanics. The wave-particle duality phenomenon, which shares the same origin, has a strong relationship with quantum coherence. Recently, an elegant relation between quantum coherence and path information has been theoretically derived. Here, we experimentally test such new duality by l1-norm measure and the minimum-error state discrimination. We prepare three classes of two-photon states encoded in polarisation degree of freedom, with one photon serving as the target and the other photon as the detector. We observe that wave-particle-like complementarity and Bagan’s equality, defined by the duality relation between coherence and path information, is well satisfied. Our results may shed new light on the original nature of wave-particle duality and on the applications of quantum coherence as a fundamental resource in quantum technologies.

Probing quantum features of photosynthetic organisms

npj Quantum Information Nature Research 4:1 (2018)

Authors:

T Krisnanda, Chiara Marletto, Vlatko Vedral, M Paternostro, T Paterek

Abstract:

Recent experiments have demonstrated strong coupling between living bacteria and light. Here we propose a scheme capable of revealing non-classical features of the bacteria (quantum discord of light–bacteria correlations) without exact modelling of the organisms and their interactions with external world. The scheme puts the bacteria in a role of mediators of quantum entanglement between otherwise non-interacting probing light modes. We then propose a plausible model of this experiment, using recently achieved parameters, demonstrating the feasibility of the scheme. Within this model we find that the steady-state entanglement between the probes, which does not depend on the initial conditions, is accompanied by entanglement between the probes and bacteria, and provides independent evidence of the strong coupling between them.

Probing quantum features of photosynthetic organisms

NPJ QUANTUM INFORMATION 4 (2018) ARTN 60

Authors:

Tanjung Krisnanda, Chiara Marletto, Vlatko Vedral, Mauro Paternostro, Tomasz Paterek