Related papers: $N$-bein formalism for the parameter space of quantum geometry

$N$-bein formalism for the parameter space of quantum geometry

URL: http://arxiv.org/abs/2406.19468v2
Date: Wed, 14 Aug 2024 18:19:18 GMT
Title: $N$-bein formalism for the parameter space of quantum geometry
Authors: Jorge Romero, Carlos A. Velasquez, J David Vergara,
Abstract summary: This work introduces a geometrical object that generalizes the quantum geometric tensor; we call it $N$-bein. We present a quantum geometric tensor of two states that measures the possibility of moving from one state to another after two consecutive parameter variations. We find that the new tensors quantify correlations between quantum states that were unavailable by other methods.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: This work introduces a geometrical object that generalizes the quantum geometric tensor; we call it $N$-bein. Analogous to the vielbein (orthonormal frame) used in the Cartan formalism, the $N$-bein behaves like a ``square root'' of the quantum geometric tensor. Using it, we present a quantum geometric tensor of two states that measures the possibility of moving from one state to another after two consecutive parameter variations. This new tensor determines the commutativity of such variations through its anti-symmetric part. In addition, we define a connection different from the Berry connection, and combining it with the $N$-bein allows us to introduce a notion of torsion and curvature \`{a} la Cartan that satisfies the Bianchi identities. Moreover, the torsion coincides with the anti-symmetric part of the two-state quantum geometric tensor previously mentioned, and thus, it is related to the commutativity of the parameter variations. We also describe our formalism using differential forms and discuss the possible physical interpretations of the new geometrical objects. Furthermore, we define different gauge invariants constructed from the geometrical quantities introduced in this work, resulting in new physical observables. Finally, we present two examples to illustrate these concepts: a harmonic oscillator and a generalized oscillator, both immersed in an electric field. We found that the new tensors quantify correlations between quantum states that were unavailable by other methods.

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