Evolution of quantum observables: from non-commutativity to commutativity

S Fortin, M Gadella, F Holik, M Losada - Soft Computing, 2020 - Springer
Soft Computing, 2020Springer
A fundamental aspect of the quantum-to-classical limit is the transition from a non-
commutative algebra of observables to commutative one. However, this transition is not
possible if we only consider unitary evolutions. One way to describe this transition is to
consider the Gamow vectors, which introduce exponential decays in the evolution. In this
paper, we give two mathematical models in which this transition happens in the infinite time
limit. In the first one, we consider operators acting on the space of the Gamow vectors, which …
Abstract
A fundamental aspect of the quantum-to-classical limit is the transition from a non-commutative algebra of observables to commutative one. However, this transition is not possible if we only consider unitary evolutions. One way to describe this transition is to consider the Gamow vectors, which introduce exponential decays in the evolution. In this paper, we give two mathematical models in which this transition happens in the infinite time limit. In the first one, we consider operators acting on the space of the Gamow vectors, which represent quantum resonances. In the second one, we use an algebraic formalism from scattering theory. We construct a non-commuting algebra which commutes in the infinite time limit.
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