Add to ORKGWe use the Konishi anomaly equations to construct the exact effective superpotential of the glueball superfields in various N=1 supersymmetric gauge theories. We use the superpotentials to study in detail the structure of the spaces of vacua of these theories. We consider chiral and non-chiral SU(N) models, the exceptional gauge group G(2) and models that break supersymmetry dynamically
The Veneziano-Yankielowicz glueball superpotential for an arbitrary N=1 SUSY pure gauge theory with ...
In this thesis, we study certain non-perturbative aspects of N=1 gauge theories. We show how to comp...
AbstractThe Veneziano–Yankielowicz glueball superpotential for an arbitrary N=1 SUSY pure gauge theo...
We use the Konishi anomaly equations to construct the exact effective superpotential of the glueball...
We use the Konishi anomaly equations to construct the exact effective superpotential of the glueball...
Motivated by recent work of Dijkgraaf and Vafa, we study anomalies and the chiral ring structure in ...
AbstractWe discuss the restrictions imposed by the Konishi anomaly on the matrix model approach to t...
We begin with a brief introduction on N = 1 gauge theories, focusing on the importance of the effect...
We begin with a brief introduction on N=1 gauge theories, focusing on the importance of the effectiv...
We study chiral SU(N) supersymmetric gauge theories with matter in the antifundamental and antisymme...
We study chiral SU(N) supersymmetric gauge theories with matter in the antifundamental and antisymme...
We analyze classical and quantum chiral ring relations of four dimensional N=1 adjoint SQCD with sup...
The strongly coupled vacua of an N=1 supersymmetric gauge theory can be described by imposing quanti...
AbstractWe consider the matter induced part of the effective superpotential of N=2, U(N) gauge model...
AbstractWe study N=1 supersymmetric U(N) gauge theories coupled to an adjoint chiral field with supe...
The Veneziano-Yankielowicz glueball superpotential for an arbitrary N=1 SUSY pure gauge theory with ...
In this thesis, we study certain non-perturbative aspects of N=1 gauge theories. We show how to comp...
AbstractThe Veneziano–Yankielowicz glueball superpotential for an arbitrary N=1 SUSY pure gauge theo...
We use the Konishi anomaly equations to construct the exact effective superpotential of the glueball...
We use the Konishi anomaly equations to construct the exact effective superpotential of the glueball...
Motivated by recent work of Dijkgraaf and Vafa, we study anomalies and the chiral ring structure in ...
AbstractWe discuss the restrictions imposed by the Konishi anomaly on the matrix model approach to t...
We begin with a brief introduction on N = 1 gauge theories, focusing on the importance of the effect...
We begin with a brief introduction on N=1 gauge theories, focusing on the importance of the effectiv...
We study chiral SU(N) supersymmetric gauge theories with matter in the antifundamental and antisymme...
We study chiral SU(N) supersymmetric gauge theories with matter in the antifundamental and antisymme...
We analyze classical and quantum chiral ring relations of four dimensional N=1 adjoint SQCD with sup...
The strongly coupled vacua of an N=1 supersymmetric gauge theory can be described by imposing quanti...
AbstractWe consider the matter induced part of the effective superpotential of N=2, U(N) gauge model...
AbstractWe study N=1 supersymmetric U(N) gauge theories coupled to an adjoint chiral field with supe...
The Veneziano-Yankielowicz glueball superpotential for an arbitrary N=1 SUSY pure gauge theory with ...
In this thesis, we study certain non-perturbative aspects of N=1 gauge theories. We show how to comp...
AbstractThe Veneziano–Yankielowicz glueball superpotential for an arbitrary N=1 SUSY pure gauge theo...