An odd feature of the “most classical” states of SU(2) invariant quantum mechanical systems

Complex and spinorial techniques of general relativity are used to determine all the states of SU(2) invariant quantum mechanical systems in which the equality holds in uncertainty relations for the components of the angular momentum vector operator in two given directions. The expectation values de...

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Bibliographic Details
Published in:Journal of mathematical physics 2023-03, Vol.64 (3)
Main Author: Szabados, László B.
Format: Article
Language:English
Subjects:
Angular momentum
Interpolation
Invariants
Mechanical systems
Operators (mathematics)
Parameters
Physics
Quantum mechanics
Relativity
Riemann surfaces
Standard deviation
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Summary:Complex and spinorial techniques of general relativity are used to determine all the states of SU(2) invariant quantum mechanical systems in which the equality holds in uncertainty relations for the components of the angular momentum vector operator in two given directions. The expectation values depend on a discrete quantum number and two parameters, one of them is the angle between two angular momentum components and the other is the quotient of two standard deviations. Allowing the angle between two angular momentum components to be arbitrary, a new genuine quantum mechanical phenomenon emerges: it is shown that although standard deviations change continuously, one of the expectation values changes discontinuously on this parameter space. Since physically neither of the angular momentum components is distinguished over the other, this discontinuity suggests that the genuine parameter space must be a double cover of this classical one: it must be diffeomorphic to a Riemann surface known in connection with the complex function z. Moreover, the angle between angular momentum components plays the role of the parameter of an interpolation between the continuous range of expectation values in the special case of orthogonal angular momentum components and the discrete point spectrum of one angular momentum component. The consequences in the simultaneous measurements of these angular momentum components are also discussed briefly.
ISSN:0022-2488
1089-7658
DOI:10.1063/5.0109611