Abstract
A major signature of quantum mechanics beyond classical physics is coherence, the existence of superposition states. The recently developed resource theory of quantum coherence allows the formalisation of incoherent operations -- those operations which cannot create coherence. We identify the set of operations which additionally do not use coherence. These are such that coherence cannot be exploited by a classical observer, who measures incoherent properties of the system, to go beyond classical dynamics. We give a physical interpretation in terms of interferometry and prove a dilation theorem, showing how these operations can always be constructed by interacting the system in an incoherent way with an ancilla. Such a physical justification is not known for the incoherent operations, thus our results lead to a physically well-motivated resource theory of coherence. Next, we investigate the implications for coherence in multipartite systems. We show that quantum correlations can be defined naturally with respect to a fixed basis, providing a link between coherence and quantum discord. We demonstrate the interplay between these two quantities under our studied operations, and suggest implications for the theory of quantum discord by relating the studied operations to those which cannot create discord.
Highlights
Quantum technologies promise to deliver an advantage over their classical counterparts in a diverse set of tasks ranging from computation to high-precision metrology to heat engines
We have showed that they are mathematically captured by the class of strictly incoherent (SI) operations and that they admit an operational interpretation in a simple interferometric scheme
Widening the view to multipartite systems, we have seen that SI operations provide a novel connection between coherence and quantum correlations
Summary
Quantum technologies promise to deliver an advantage over their classical counterparts in a diverse set of tasks ranging from computation to high-precision metrology to heat engines. Our results suggest that the abilities to prepare and to detect coherent states can both be seen as resources No such physical picture has yet been presented for the incoherent operations. We identify a refined form of discord, which measures the quantumness of correlations with respect to the incoherent basis. This is often overlooked in favor of the usual basis-independent form—we highlight basisdependent discord as a quantity of significance by demonstrating its strong connections with coherence. We suggest a new set of basis-dependent discord measures with exactly the same behavior with respect to SI operations, quantifying the loss of nonlocal information under local dephasing. Identifying the free operations for discord is an open problem, and this provides the first hint towards a solution
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