Prepotentials of $N=2$ Supersymmetric Gauge Theories and Soliton Equations

Tohru Eguchi; Sung-Kil Yang

Prepotentials of $N=2$ Supersymmetric Gauge Theories and Soliton Equations

Tohru Eguchi, Sung-Kil Yang

Abstract

Using recently proposed soliton equations we derive a basic identity for the scaling violation of $N=2$ supersymmetric gauge theories $\sum_i a_i\partial F/\partial a_i-2F=8 πi b_1 u$. Here $F$ is the prepotential, $a_i$'s are the expectation values of the scalar fields in the vector multiplet, $u=1/2\, {\rm Tr}\, \langleφ^2\rangle$ and $b_1$ is the coefficient of the one-loop $β$-function. This equation holds in the Coulomb branch of all $N=2$ supersymmetric gauge theories coupled with massless matter.

Prepotentials of $N=2$ Supersymmetric Gauge Theories and Soliton Equations

Abstract

Using recently proposed soliton equations we derive a basic identity for the scaling violation of

supersymmetric gauge theories

. Here

is the prepotential,

's are the expectation values of the scalar fields in the vector multiplet,

and

is the coefficient of the one-loop

-function. This equation holds in the Coulomb branch of all

supersymmetric gauge theories coupled with massless matter.

Prepotentials of $N=2$ Supersymmetric Gauge Theories and Soliton Equations

Abstract

Prepotentials of $N=2$ Supersymmetric Gauge Theories and Soliton Equations

Abstract

Paper Structure