Physics – Condensed Matter – Materials Science
Scientific paper
2010-07-12
Journal of Low Temperature Physics 162 (2011) 500 (9 pages)
Physics
Condensed Matter
Materials Science
QFS 2010 contribution; Revision has corrected typos and expanded introduction. To appear in Journal of Low Temperature Physics
Scientific paper
10.1007/s10909-010-0320-2
Single and double torsion oscillators have been used successfully to measure the anomalous change in resonant frequency and accompanying dissipation in solid He-4. We present a glass description of the mechanical anomalies found in torsion oscillator measurements. Our results show that it is not necessary to invoke a supersolid interpretation to explain these mechanical anomalies. Previously, we demonstrated that the back-action of a glassy subsystem present in solid He-4 can account for frequency change and dissipation peak in many single torsion oscillator experiments. Here, we show that the same glassy back-action can explain the experimental results of the composite torsion oscillator developed by the Rutgers group, which measures the response of solid He-4 at the in-phase mode f1=496 Hz and out-of-phase mode f2=1173 Hz.
Dahal Hari P.
Graf Matthias. J.
Grigorenko Ilya
Nussinov Zohar
Su Jung-Jung
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