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Indefinite causal order enables perfect quantum communication with zero capacity channels

Giulio Chiribella, Manik Banik, Some Sankar Bhattacharya, Tamal Guha, Mir Alimuddin, Arup Roy, Sutapa Saha, Sristy Agrawal, Guruprasad Kar

2021New Journal of Physics111 citationsDOIOpen Access PDF

Abstract

Abstract Quantum mechanics is compatible with scenarios where the relative order between two events can be indefinite. Here we show that two independent instances of a noisy process can behave as a perfect quantum communication channel when used in a coherent superposition of two alternative orders. This phenomenon occurs even if the original process has zero capacity to transmit quantum information. In contrast, perfect quantum communication does not occur when the message is sent directly from the sender to the receiver through a superposition of alternative paths, with an independent noise process acting on each path. The possibility of perfect quantum communication through independent noisy channels highlights a fundamental difference between the superposition of orders in time and the superposition of paths in space.

Topics & Concepts

PhysicsSuperposition principleQuantum capacityCommunication sourceQuantum superpositionQuantumQuantum information scienceQuantum mechanicsQuantum channelClassical capacityZero (linguistics)Statistical physicsProcess (computing)Channel (broadcasting)Noise (video)Amplitude damping channelOrder (exchange)Topology (electrical circuits)Quantum processQuantum error correctionQuantum networkQuantum noiseTheoretical physicsQuantum operationInterference (communication)Quantum informationQuantum Mechanics and ApplicationsQuantum Information and Cryptographystochastic dynamics and bifurcation
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