Bradley, D. Ian and Clubb, D. O. and Fisher, Shaun N. and Guénault, A.M. and Matthews, C. J. and Pickett, George R. (2004) Vortex generation in superfluid He-3 by a vibrating grid. Journal of Low Temperature Physics, 134 (1-2). pp. 381-386. ISSN 0022-2291Full text not available from this repository.
Recently we have found that a vibrating wire resonator produces turbulence in superfluid He-3-B at low temperatures when driven above its pair-breaking critical velocity. The vorticity is produced along with a beam of excitations from pair breaking. Here, we discuss preliminary measurements of turbulence generated from an oscillating grid at low temperatures. The grid oscillator is made from a goal-post shaped vibrating wire resonator supporting a fine copper mesh. While the dissipation by a conventional wire resonator is dominated by pair-breaking at the velocities required for turbulence generation, the dissipation of the grid oscillator appears to be dominated by turbulence. This allows us to generate turbulence without the unwanted effects of a quasiparticle beam. Preliminary measurements suggest that the grid turbulence has a rather different behaviour from that generated by conventional wire resonators.
|Journal or Publication Title:||Journal of Low Temperature Physics|
|Uncontrolled Keywords:||superfluid ; helium-3 ; QUANTUM TURBULENCE|
|Subjects:||Q Science > QC Physics|
|Departments:||Faculty of Science and Technology > Physics|
|Deposited By:||Dr Richard P. Haley|
|Deposited On:||03 Feb 2009 15:17|
|Last Modified:||04 Nov 2015 00:23|
Actions (login required)