Reference Frame Induced Symmetry Breaking on Holographic Screens
Chris Fields, James F. Glazebrook, Antonino Marcianò
Abstract
Any interaction between finite quantum systems in a separable joint state can be viewed as encoding classical information on an induced holographic screen. Here we show that when such an interaction is represented as a measurement, the quantum reference frames (QRFs) deployed to identify systems and pick out their pointer states induce decoherence, breaking the symmetry of the holographic encoding in an observer-relative way. Observable entanglement, contextuality, and classical memory are, in this representation, logical and temporal relations between QRFs. Sharing entanglement as a resource requires a priori shared QRFs.
Topics & Concepts
Quantum entanglementPointer (user interface)ObservableReference frameComputer scienceQuantum decoherenceHolographyTheoretical physicsQuantumPhysicsTheoretical computer scienceQuantum mechanicsFrame (networking)Computer visionTelecommunicationsQuantum Mechanics and ApplicationsQuantum Information and CryptographyQuantum Computing Algorithms and Architecture