Related papers: Experimental study of quantum coherence decomposition and trade-off relations in a tripartite system

Experimental study of quantum coherence decomposition and trade-off relations in a tripartite system

URL: http://arxiv.org/abs/2011.08038v1
Date: Mon, 16 Nov 2020 15:44:58 GMT
Title: Experimental study of quantum coherence decomposition and trade-off relations in a tripartite system
Authors: Zhe Ding, Ran Liu, Chandrashekar Radhakrishnan, Wenchao Ma, Xinhua Peng, Ya Wang, Tim Byrnes, Fazhan Shi and Jiangfeng Du
Abstract summary: We study the full set of coherence trade-off relations between the original state, the bipartite product state, the tripartite product state, and the decohered product state. We find that despite the different types of states involved, the properties of the state in terms of coherence and monogamy are equivalent.
Score: 8.797280564220879
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Quantum coherence is the most fundamental of all quantum quantifiers, underlying other well-known quantities such as entanglement, quantum discord, and Bell correlations. It can be distributed in a multipartite system in various ways -- for example, in a bipartite system it can exist within subsystems (local coherence) or collectively between the subsystems (global coherence) and exhibits a trade-off relation. In quantum systems with more than two subsystems, there are more trade-off relations, due to the various decomposition ways of the coherence. In this paper, we experimentally verify these coherence trade-off relations in adiabatically evolved quantum systems using a spin system by changing the state from a product state to a tripartite entangled state. We study the full set of coherence trade-off relations between the original state, the bipartite product state, the tripartite product state, and the decohered product state. We also experimentally verify the monogamy inequality and show that both the quantum systems are polygamous except for the initial product state. We find that despite the different types of states involved, the properties of the state in terms of coherence and monogamy are equivalent. This illustrates the utility of using coherence as a characterization tool for quantum states.

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