Quantum Reality Filters

Abstract

An anhomomorphic logic * is the set of all possible realities for a quantum system. Our main goal is to find the "actual reality" φa∈ * for the system. Reality filters are employed to eliminate unwanted potential realities until only φa remains. In this paper, we consider three reality filters that are constructed by means of quantum integrals. A quantum measure μ can generate or actualize a φ∈ * if μ (A) is a quantum integral with respect to φ for a density function f over events A. In this sense, μ is an "average" of the truth values of φ with weights given by f. We mainly discuss relations between these filters and their existence and uniqueness properties. For example, we show that a quadratic reality generated by a quantum measure is unique. In this case we obtain the unique actual quadratic reality.