Scalar model of SU(N) glueball \`a la Heisenberg

Abstract

Nonperturbative model of glueball is studied. The model is based on the nonperturbative quantization technique suggested by Heisenberg. 2- and 4-point Green functions for a gauge potential are expressed in terms of two scalar fields. The first scalar field describes quantum fluctuations of the subgroup SU(n) ⊂ SU(N), and the second one describes quantum fluctuations of the coset SU(N) / SU(n). An effective Lagrangian for the scalar fields is obtained. The coefficients for all terms in the Lagrangian are calculated, and it is shown that they depend on SU(n), SU(N). It is demonstrated that a spherically symmetric solution describing the glueball does exist.