Hydrodynamics without chaos: fluid flow near integrability
by
Large Seminar room
BLDG 510B
The large-scale dynamics of a conventional fluid, whether quantum or classical, is captured by only five equations, one for each local conservation law. For integrable systems, which possess infinitely many conservation laws, this conventional understanding breaks down and must be replaced by an infinite number of hydrodynamic equations. The vast number of slow modes that are predicted by this analysis have dramatic consequences for physical systems near integrability, which have now been observed across platforms spanning ultracold atoms, quasi-one-dimensional materials and intermediate-scale quantum computers. We summarize a decade of intense theoretical work on this topic, connect it to both old and new experiments and discuss some obdurate open problems in the field.