Semi-Device-Independent Certification of Causal Nonseparability with Trusted Quantum Inputs

While the standard formulation of quantum theory assumes a fixed background causal structure, one can relax this assumption within the so-called process matrix framework. Remarkably, some processes, termed causally nonseparable, are incompatible with a definite causal order. We explore a form of cer...

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Veröffentlicht in:	Physical review letters 2022-08, Vol.129 (9), p.090402-090402, Article 090402
Hauptverfasser:	Dourdent, Hippolyte, Abbott, Alastair A., Brunner, Nicolas, Šupić, Ivan, Branciard, Cyril
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Sprache:	eng
Schlagworte:	Physics Quantum Physics
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creator	Dourdent, Hippolyte Abbott, Alastair A. Brunner, Nicolas Šupić, Ivan Branciard, Cyril
description	While the standard formulation of quantum theory assumes a fixed background causal structure, one can relax this assumption within the so-called process matrix framework. Remarkably, some processes, termed causally nonseparable, are incompatible with a definite causal order. We explore a form of certification of causal nonseparability in a semi-device-independent scenario where the involved parties receive trusted quantum inputs, but whose operations are otherwise uncharacterised. Defining the notion of causally nonseparable distributed measurements, we show that certain causally nonseparable processes which cannot violate any causal inequality, such as the canonical example of the quantum switch, can generate noncausal correlations in such a scenario. Moreover, by further imposing some natural structure to the untrusted operations, we show that all bipartite causally nonseparable process matrices can be certified with trusted quantum inputs.
doi_str_mv	10.1103/PhysRevLett.129.090402
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title	Semi-Device-Independent Certification of Causal Nonseparability with Trusted Quantum Inputs
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