Entanglement consumption of instantaneous nonlocal quantum measurements


Clark, S. R., Connor, A. J., Jaksch, D. and Popescu, S., 2010. Entanglement consumption of instantaneous nonlocal quantum measurements. New Journal of Physics, 12, 083034.

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    Relativistic causality has dramatic consequences on the measurability of nonlocal variables and poses the fundamental question of whether it is physically meaningful to speak about the value of nonlocal variables at a particular time. Recent work has shown that by weakening the role of the measurement in preparing eigenstates of the variable it is in fact possible to measure all nonlocal observables instantaneously by exploiting entanglement. However, for these measurement schemes to succeed with certainty an infinite amount of entanglement must be distributed initially and all this entanglement is necessarily consumed. In this work we sharpen the characterisation of instantaneous nonlocal measurements by explicitly devising schemes in which only a finite amount of the initially distributed entanglement is ever utilised. This enables us to determine an upper bound to the average consumption for the most general cases of nonlocal measurements. This includes the tasks of state verification, where the measurement verifies if the system is in a given state, and verification measurements of a general set of eigenstates of an observable. Despite its finiteness the growth of entanglement consumption is found to display an extremely unfavourable exponential of an exponential scaling with either the number of qubits needed to contain the Schmidt rank of the target state or total number of qubits in the system for an operator measurement. This scaling is seen to be a consequence of the combination of the generic exponential scaling of unitary decompositions combined with the highly recursive structure of our scheme required to overcome the no-signalling constraint of relativistic causality.


    Item Type Articles
    CreatorsClark, S. R., Connor, A. J., Jaksch, D. and Popescu, S.
    Uncontrolled Keywordsquant-ph
    DepartmentsFaculty of Science > Physics
    ID Code47334
    Additional Information32 pages and 14 figures. Updated to published version


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