×

Observing dynamical supersymmetry breaking with Euclidean lattice simulations. (English) Zbl 1146.81031

Summary: A strict positivity of the ground-state energy is a necessary and sufficient condition for spontaneous supersymmetry breaking. This ground-state energy may be directly determined from the expectation value of the Hamiltonian in the functional integral, defined with an antiperiodic temporal boundary condition for all fermionic variables. We propose to use this fact to observe the dynamical spontaneous supersymmetry breaking in Euclidean lattice simulations. If a lattice formulation possesses a manifestly preserved fermionic symmetry, there exists a natural choice of a Hamiltonian operator that is consistent with a topological nature of the Witten index. We numerically confirm the validity of our idea in models of supersymmetric quantum mechanics. We further examine the possibility of dynamical supersymmetry breaking in the two-dimensional \({\mathcal N} = (2,2)\) super Yang-Mills theory with the gauge group SU(1), for which the Witten index is unknown. Although statistical errors are still large, we do not observe positive ground-state energy, at least within one Standard deviation. This prompts us to draw a different conclusion from a recent conjectural claim that supersymmetry is dynamically broken in this system.

MSC:

81R40 Symmetry breaking in quantum theory
81T60 Supersymmetric field theories in quantum mechanics
81T80 Simulation and numerical modelling (quantum field theory) (MSC2010)

Software:

MDP
PDFBibTeX XMLCite
Full Text: DOI arXiv