Relativity of Quantum States and Observables
arXiv:1604.02836 · doi:10.1209/0295-5075/117/40004
Abstract
Under the principle that quantum mechanical observables are invariant under relevant symmetry transformations, we explore how the usual, non-invariant quantities may capture measurement statistics. Using a relativisation mapping, viewed as the incorporation of a quantum reference frame, we show that the usual quantum description approximates the relative one precisely when the reference system admits an appropriate localisable quantity and a localised state. From this follows a new perspective on the nature and reality of quantum superpositions and optical coherence.
Current version 3 has an updated bibliography, including a reference to the sequel arXiv:1704.10434