Litcius/Paper detail

A No-go Theorem for Superposed Actions (Making Schrödinger’s Cat Quantum Nonlocal)

Szymon Łukaszyk

2022Book Publisher International (a part of SCIENCEDOMAIN International)13 citationsDOIOpen Access PDF

Abstract

The Extended Wigner’s Friend thought experiment, which involves a quantum system with an agent who draws conclusions based on the results of a measurement of a quantum state provided in two nonorthogonal versions by another agent, led its designers to the conclusion that quantum theory cannot consistently explain the use of itself. It has also been suggested that this thought experiment is equivalent to entangled state (Bell-type) experiments. This study indicates that the assumption of the first Wigner's friend's freedom of choice, regarding how to prepare a quantum state in one of the two available nonorthogonal versions, invalidates such equivalence. A no-go theorem for superposed actions is derived on this basis. It is also argued that modeling Wigner-type experiments under the principle of locality, i.e., using enclosed containers modeled as composite, many-body quantum states, is fundamentally wrong as it neglects quantum nonlocality.

Topics & Concepts

Quantum nonlocalityQuantumTheoretical physicsQuantum stateEquivalence (formal languages)State (computer science)Type (biology)MathematicsLocalityPhysicsQuantum mechanicsPure mathematicsQuantum entanglementPhilosophyEcologyAlgorithmLinguisticsBiologyQuantum Mechanics and Applications
A No-go Theorem for Superposed Actions (Making Schrödinger’s Cat Quantum Nonlocal) | Litcius