Critical Velocities for Roton and Super-Flow Quantum Turbulence in Liquid 4He

Abstract

Two different types of transitions of the superfluid 4He to quantum turbulence regimes are studied for 1 D geometry in the case when the influence of the normal fluid on superfluid flow is suppressed. It is shown that the roton mechanism of transition to quantum turbulence leads to a critical velocity satisfying the relation vc d-1/4. In the super-flow mechanism, the transition to quantum turbulence arises when the "quantum Reynolds number" is about 103 and the critical velocity depends on channel size d as vc d-1 in agreement with the equations of motion for a superfluid component of the liquid 4He being disturbed by small fluctuations of the normal fluid.