Emergent Pauli blocking in a weakly interacting Bose gas

We experimentally study the dynamics and relaxation of a single density mode in a weakly interacting Bose gas trapped in a highly elongated potential. Although both the chemical potential and thermal energy of the gas exceed the level spacing of the transverse potential, we find that the observed dynamics are accurately described by the one-dimensional, integrable theory of generalized hydrodynamics. We attribute the absence of thermalization to the suppression of three-dimensional excitations, as outgoing states of the associated scattering processes obey fermionic statitistics, thus being susceptible to the Pauli exclusion principle. The mechanisms effectively preserves one-dimensionality, and hence integrability, far beyond conventional limits.