Chiral symmetry: An analytic SU(3) unitary matrix

Abstract

The SU(2) unitary matrix U employed in hadronic low-energy processes has both exponential and analytic representations, related by U = [ i τ · π θ\,] = θ I + i τ · π θ . One extends this result to the SU(3) unitary matrix by deriving an analytic expression which, for Gell-Mann matrices λ, reads U= [ i v · λ ] = [ ( F + 23 G ) I + ( H v + 13 G b ) · λ \, ] + i [ ( Y + 23 Z ) I + ( X v + 13 Z b ) · λ ] , with vi=[\,v1, ·s v8\,], bi = dijk \, vj \, vk , and factors F, ·s Z written in terms of elementary functions depending on v=|v| and η = 2\, dijk \, vi \, vj \, vk /3 . This result does not depend on the particular meaning attached to the variable v and the analytic expression is used to calculate explicitly the associated left and right forms. When v represents pseudoscalar meson fields, the classical limit corresponds to 0|η|0 → η → 0 and yields the cyclic structure U = \ [ 13 ( 1 + 2 v ) I + 13 ( -1 + v ) b· λ ] + i ( v ) v· λ \ , which gives rise to a tilted circumference with radius 2/3 in the space defined by I, b· λ , and v· λ . The axial transformations of the analytic matrix are also evaluated explicitly.