Universal Dynamical Scaling of Two-dimensional Vortices in a Strongly Interacting Fermionic Superfluid

Dynamical formulation and annihilation of vortices play a key role in the celebrated Berezinskii-Kosterlitz-Thouless (BKT) theory, a universal topological mechanism describing exotic states of matter in low dimensions. Here we study the annihilation dynamics of a large number of vortices and anti-vortices generated by thermally quenching a Fermionic superfluid of $^6$Li atoms in an oblate optical geometry. Universal algebraic scaling laws in both time and space are experimentally revealed over a wide interaction range, from the attractive to the repulsive side across the Feshbach resonance, and further found to agree with a Glauber dynamics in Monte Carlo simulation of the classical XY model and with field-theoretical calculations. Our work provides a direct demonstration of the universal vortex dynamics underlying the BKT theory.