IngentaConnect Higher-order uncertainty relations

Abstract:

Using the non-negativity of Gram determinants of arbitrary order, we derive higher-order uncertainty relations for the symmetric uncertainty matrices of corresponding order n ?>?2 to n Hermitean operators ( n ?=?2 is the usual case). The special cases of third-order and fourth-order uncertainty relations are considered in detail. The obtained third-order uncertainty relations are applied to the Lie groups SU (1,1) with three Hermitean basis operators ( K 1 , K 2 , K 0 ) and SU (2) with three Hermitean basis operators ( J 1 , J 2 , J 3 ) where, in particular, the group-coherent states of Perelomov type and of Barut–Girardello type for SU (1,1) and the spin or atomic coherent states for SU (2) are investigated. The uncertainty relations for the determinant of the third-order uncertainty matrix are satisfied with the equality sign for coherent states and this determinant becomes vanishing for the Perelomov type of coherent states for SU (1,1) and SU (2). As an example of the application of fourth-order uncertainty relations, we consider the canonical operators ( Q 1 , P 1 , Q 2 , P 2 ) of two boson modes and the corresponding uncertainty matrix formed by the operators of the corresponding mean deviations, taking into account the correlations between the two modes. In two mathematical appendices, we prove the non-negativity of the determinant of correlation matrices of arbitrary order and clarify the principal structure of higher-order uncertainty relations.

Document Type: Research article

DOI: 10.1080/09500340500418815

Affiliations: 1: Institut für Physik, Humboldt-Universität, Newtonstr. 15, 12489 Berlin, Germany

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