28 July 2024 to 3 August 2024
Europe/London timezone

Formulation of SU(N) Lattice Gauge Theories with Schwinger Fermions

31 Jul 2024, 12:35
20m
Talk Theoretical Developments Theoretical developments

Speaker

Hanqing Liu (Los Alamos National Laboratory)

Description

The recent advancements towards scalable fault-tolerant quantum computing have brought excitement about simulating lattice gauge theories on quantum computers. However, digital quantum computers require truncating the infinite-dimensional link Hilbert space to finite dimensions. In this talk, we focus on the $\mathrm{SU}(N)$ gauge theory coupled to $N_f$ flavor of quarks and propose a formulation of the gauge field using Schwinger fermions. Remarkably, the resulting theory can be expressed purely in terms of gauge-invariant operators. This formulation applies to any $\mathrm{SU}(N)$ gauge group in any spacetime dimension. To explore the potential for reproducing the continuum physics, we study this model at $N=2$ in two spacetime dimensions, where the low-energy continuum physics is expected to be described by a coset Wess-Zumino-Witten (WZW) model. Using tensor network methods, we find that the critical theory can indeed be understood as an $\mathrm{SU}(2)_1$ WZW model.

Primary author

Hanqing Liu (Los Alamos National Laboratory)

Co-authors

Tanmoy Bhattacharya (Los Alamos National Laboratory) Shailesh Chandrasekharan (Duke University) Rajan Gupta (Los ALamos National Lab)

Presentation materials