LAUSR.org creates dashboard-style pages of related content for over 1.5 million academic articles. Sign Up to like articles & get recommendations!

SO(4) Landau models and matrix geometry

Photo by joelfilip from unsplash

Abstract We develop an in-depth analysis of the S O ( 4 ) Landau models on S 3 in the S U ( 2 ) monopole background and their associated… Click to show full abstract

Abstract We develop an in-depth analysis of the S O ( 4 ) Landau models on S 3 in the S U ( 2 ) monopole background and their associated matrix geometry. The Schwinger and Dirac gauges for the S U ( 2 ) monopole are introduced to provide a concrete coordinate representation of S O ( 4 ) operators and wavefunctions. The gauge fixing enables us to demonstrate algebraic relations of the operators and the S O ( 4 ) covariance of the eigenfunctions. With the spin connection of S 3 , we construct an S O ( 4 ) invariant Weyl–Landau operator and analyze its eigenvalue problem with explicit form of the eigenstates. The obtained results include the known formulae of the free Weyl operator eigenstates in the free field limit. Other eigenvalue problems of variant relativistic Landau models, such as massive Dirac–Landau and supersymmetric Landau models, are investigated too. With the developed S O ( 4 ) technologies, we derive the three-dimensional matrix geometry in the Landau models. By applying the level projection method to the Landau models, we identify the matrix elements of the S 3 coordinates as the fuzzy three-sphere. For the non-relativistic model, it is shown that the fuzzy three-sphere geometry emerges in each of the Landau levels and only in the degenerate lowest energy sub-bands. We also point out that Dirac–Landau operator accommodates two fuzzy three-spheres in each Landau level and the mass term induces interaction between them.

Keywords: matrix geometry; geometry landau; landau models; geometry; fuzzy three; landau

Journal Title: Nuclear Physics B
Year Published: 2018

Link to full text (if available)


Share on Social Media:                               Sign Up to like & get
recommendations!

Related content

More Information              News              Social Media              Video              Recommended



                Click one of the above tabs to view related content.