NewEvery arXiv paper, its researchers & institutions — mapped.
quantum physics

Geometric phases for finite-dimensional systems -- the roles of Bargmann Invariants, Null Phase Curves and the Schwinger Majorana SU(2) framework

arXiv:1908.03325

summary

The paper investigates geometric phases in finite‑dimensional quantum systems by analyzing Bargmann invariants and null phase curves, employing the Majorana representation of symmetric SU(2) multispinors together with the Schwinger oscillator construction.

Abstract

We present a study of the properties of Bargmann Invariants (BI) and Null Phase Curves (NPC) in the theory of the geometric phase for finite dimensional systems. A recent suggestion to exploit the Majorana theorem on symmetric SU(2) multispinors is combined with the Schwinger oscillator operator construction to develop efficient operator based methods to handle these problems. The BI is described using intrinsic unitary invariant angle parameters, whose algebraic properties as functions of Hilbert space dimension are analysed using elegant group theoretic methods. The BI-geometric phase connection, extended by the use of NPC's, is explored in detail, and interesting new experiments in this subject are pointed out.

LaTex, 20 pages

Topics & keywords

#geometric phase#bargmann invariants#null phase curves#majorana representation#schwinger oscillator#finite-dimensional systemsgeometric phaseBargmann invariantnull phase curveMajorana theoremSchwinger oscillatorSU(2)