Litcius/Paper detail

Causal orders, quantum circuits and spacetime: distinguishing between definite and superposed causal orders

Nikola Paunković, Marko Vojinović

2020Quantum44 citationsDOIOpen Access PDF

Abstract

We study the notion of causal orders for the cases of (classical and quantum) circuits and spacetime events. We show that every circuit can be immersed into a classical spacetime, preserving the compatibility between the two causal structures. Using the process matrix formalism, we analyse the realisations of the quantum switch using 4 and 3 spacetime events in classical spacetimes with fixed causal orders, and the realisation of a gravitational switch with only 2 spacetime events that features superpositions of different gravitational field configurations and their respective causal orders. We show that the current quantum switch experimental implementations do not feature superpositions of causal orders between spacetime events, and that these superpositions can only occur in the context of superposed gravitational fields. We also discuss a recently introduced operational notion of an event, which does allow for superpositions of respective causal orders in flat spacetime quantum switch implementations. We construct two observables that can distinguish between the quantum switch realisations in classical spacetimes, and gravitational switch implementations in superposed spacetimes. Finally, we discuss our results in the light of the modern relational approach to physics.

Topics & Concepts

SpacetimePhysicsQuantumTheoretical physicsRealisationObservableQuantum spacetimeGravitational fieldGravitationGravity Probe ACausal structureContext (archaeology)Classical mechanicsCausality (physics)Quantum gravityQuantum mechanicsQuantum processCausal setsQuantum field theoryQuantum field theory in curved spacetimeQuantum circuitGravitational waveQuantum stateMacroscopic quantum phenomenaAlgebra over a fieldComputer scienceQuantum informationSpacetime topologyTheoretical computer scienceTopology (electrical circuits)Electronic circuitFeature (linguistics)Covariant transformationProblem of timeMathematicsLinearized gravityOpen quantum systemNoncommutative and Quantum Gravity TheoriesQuantum Mechanics and ApplicationsAlgebraic and Geometric Analysis