Frontiers of quantum physics

Emergence of correlated proton tunnelling in water ice

Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences Royal Society 475:2225 (2019) 20180867

Authors:

O Pusuluk, T Farrow, C Deliduman, Vlatko Vedral

Abstract:

Several experimental and theoretical studies report instances of concerted or correlated multiple proton tunnelling in solid phases of water. Here, we construct a pseudo-spin model for the quantum motion of protons in a hexameric H2O ring and extend it to open system dynamics that takes environmental effects into account in the form of O-H stretch vibrations. We approach the problem of correlations in tunnelling using quantum information theory in a departure from previous studies. Our formalism enables us to quantify the coherent proton mobility around the hexagonal ring by one of the principal measures of coherence, the l 1 norm of coherence. The nature of the pairwise pseudo-spin correlations underlying the overall mobility is further investigated within this formalism. We show that the classical correlations of the individual quantum tunnelling events in long-time limit is sufficient to capture the behaviour of coherent proton mobility observed in low-temperature experiments. We conclude that long-range intra-ring interactions do not appear to be a necessary condition for correlated proton tunnelling in water ice.

Emergence of correlated proton tunnelling in water ice.

Proceedings. Mathematical, Physical, and Engineering Sciences 475:2225 (2019) 20180867-20180867

Authors:

Onur Pusuluk, Tristan Farrow, Cemsinan Deliduman, Vlatko Vedral

Abstract:

Several experimental and theoretical studies report instances of concerted or correlated multiple proton tunnelling in solid phases of water. Here, we construct a pseudo-spin model for the quantum motion of protons in a hexameric H2O ring and extend it to open system dynamics that takes environmental effects into account in the form of O-H stretch vibrations. We approach the problem of correlations in tunnelling using quantum information theory in a departure from previous studies. Our formalism enables us to quantify the coherent proton mobility around the hexagonal ring by one of the principal measures of coherence, the l 1 norm of coherence. The nature of the pairwise pseudo-spin correlations underlying the overall mobility is further investigated within this formalism. We show that the classical correlations of the individual quantum tunnelling events in long-time limit is sufficient to capture the behaviour of coherent proton mobility observed in low-temperature experiments. We conclude that long-range intra-ring interactions do not appear to be a necessary condition for correlated proton tunnelling in water ice.

Operational advantage of basis-independent quantum coherence

EPL 125:5 (2019) ARTN 50005

Authors:

Zhi-Hao Ma, Jian Cui, Zhu Cao, Shao-Ming Fei, Vlatko Vedral, Tim Byrnes, Chandrashekar Radhakrishnan

Phase-preserving linear amplifiers not simulable by the parametric amplifier

(2019)

Authors:

A Chia, M Hajdusek, R Nair, R Fazio, LC Kwek, V Vedral

Different instances of time as different quantum modes: quantum states across space-time for continuous variables

(2019)

Authors:

Tian Zhang, Oscar Dahlsten, Vlatko Vedral