High Temperature Mobility in Solid 4-Helium |
| TYPE | Condensed Matter Seminar |
| Speaker: | Anna Eyal |
| Affiliation: | Technion |
| Date: | 06.12.2011 |
| Time: | 14:30 |
| Location: | Lidow Nathan Rosen (300) |
| Remark: | PhD seminar |
| Abstract: |
Can solid helium support superflow? This 40 year old question seemed to have been answered positively in 2004 when Kim and Chan [1] discovered that some of the mass of solid helium inside a torsional oscillator decoupled from the walls. This effect showed up at temperatures below 0.2K. However, newer experimental results and theoretical calculations give several other possible explanations to the observed results, and the physical mechanism responsible for the apparent mobility of solid helium still remains a subject of intense study. We performed similar torsional oscillator experiments [2] on solid helium at temperatures an order of magnitude higher. We observed mass decoupling of around 30%, which appeared only after disorder was introduced into the crystal. Our results show many other features similar to the low temperature results yet consistent with a non superfluid origin of the phenomenon. Dislocation dynamics is one possible alternative explanation. [1] E. Kim and M. H. W. Chan, Nature 427, 225 (2004) [2] A. Eyal, O. Pelleg, L. Embon and E. Polturak, Phys. Rev. Lett. 105, 025301 (2010)
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