Lecture Notes on Supersymmetry |
Contents
Introduction | 2 |
Spontaneous Symmetry Breaking and the WZLagrangian | 20 |
Other Possibilities for MassBreaking | 32 |
4 other sections not shown
Common terms and phrases
algebra allows Appendix assume asymptotically free belong boson chiral chiral scalar clearly combination commutation complex condition conservation consider construct contains conventional conventional fields corrections corresponding coupling constant defined diagram Dirac directions discussion divergent effective eliminated equal equation example expect fact fermion fields finite follows gabe gauge given Goldstone hence higher holds identity independent insertion interaction internal symmetry intrinsic parity introduce invariant kinetic Lagrangian lemma limit linear Lorentz maintained Majorana mass mass-matrix matrix matter-fields namely Note Nucl obtain operator parameter parity particles particular Phys Physics positive definite possible potential properties quadratic question renormalization representation respect result satisfied scalar superfields seen simple solutions spinors spontaneous breakdown spontaneous symmetry breaking super supersymmetry term theory transformation turns vector weight WZ-Lagrangian Yang-Mills Yang-Mills field zero