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Observation of a superfluid component within solid helium.

H Lauter1, V Apaja, I Kalinin

  • 1Spallation Neutron Source, Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831, USA.

Physical Review Letters
|January 17, 2012
PubMed
Summary
This summary is machine-generated.

A localized superfluid component was found in solid helium within aerogel at high pressures. This discovery, observed via neutron scattering, reveals distinct roton excitations not present in bulk superfluid helium.

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Area of Science:

  • Condensed Matter Physics
  • Quantum Fluids
  • Materials Science

Background:

  • Superfluidity in helium is a quantum phenomenon observed in liquid helium-4 (He II).
  • Solid helium, particularly under high pressure, exhibits complex phases and excitations.
  • Aerogels provide a porous matrix that can influence the behavior of confined fluids.

Purpose of the Study:

  • To investigate the existence and characteristics of superfluidity within solid helium confined in an aerogel matrix.
  • To analyze the nature of excitations in this confined superfluid system.
  • To compare experimental findings with theoretical models.

Main Methods:

  • Neutron scattering experiments were conducted to probe the excitations.
  • High-pressure conditions were applied to solid helium infiltrated within an aerogel structure.
  • Phonon-roton spectra were analyzed to identify superfluid components.

Main Results:

  • Two distinct sharp phonon-roton spectra were observed, differing from bulk superfluid helium.
  • The observed roton excitations displayed different roton gap parameters compared to bulk fluid.
  • One roton mode vanished after annealing the aerogel-helium samples.

Conclusions:

  • The results strongly suggest the presence of a localized superfluid component within solid helium in aerogel.
  • The observed excitations are best explained by a model of superfluid double layers at the solid-helium and helium-substrate interfaces.
  • This finding offers new insights into the behavior of superfluids in confined and solidifying environments.