Litcius/Paper detail

Evading noise in multiparameter quantum metrology with indefinite causal order

Aaron Z. Goldberg, Khabat Heshami, L. L. Sánchez-Soto

2023Physical Review Research15 citationsDOIOpen Access PDF

Abstract

Quantum theory allows the traversing of multiple channels in a superposition of different orders. When the order in which the channels are traversed is controlled by an auxiliary quantum system, various unknown parameters of the channels can be estimated by measuring only the control system, even when the state of the probe alone would be insensitive. Moreover, increasing the dimension of the control system increases the number of simultaneously estimable parameters, which has important metrological ramifications. We demonstrate this capability for simultaneously estimating both unitary and noise parameters, including multiple parameters from the same unitary such as rotation angles and axes and from noise channels such as depolarization, dephasing, and amplitude damping in arbitrary dimensions. We identify regimes of unlimited advantages, taking the form of ${p}^{2}$ smaller variances in estimation when the noise probability is $1\ensuremath{-}p$, for both single and multiparameter estimations when using our schemes relative to any comparable scheme whose causal order is definite.

Topics & Concepts

Superposition principleDephasingQuantum metrologyNoise (video)Unitary stateStatistical physicsMetrologyDimension (graph theory)QuantumPhysicsQuantum noiseMathematicsQuantum mechanicsControl theory (sociology)Computer scienceControl (management)Quantum networkQuantum informationArtificial intelligenceLawImage (mathematics)Political sciencePure mathematicsQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum Computing Algorithms and Architecture