185 research outputs found
Freezing and pressure-driven flow of solid helium in Vycor
The recent torsional oscillator results of Kim and Chan suggest a supersolid
phase transition in solid He-4 confined in Vycor. We have used a capacitive
technique to directly monitor density changes for helium confined in Vycor at
low temperature and have used a piezoelectrically driven diaphragm to study the
pressure-induced flow of solid helium into the Vycor pores. Our measurements
showed no indication of a mass redistribution in the Vycor that could mimic
supersolid decoupling and put an upper limit of about 0.003 um/s on any
pressure-induced supersolid flow in the pores of Vycor.Comment: 5 pages, 4 figure
Intrinsic and dislocation induced elastic behavior of solid helium
Recent experiments showed that the shear modulus of solid 4He stiffens in the
same temperature range (below 200 mK) where mass decoupling and supersolidity
have been inferred from torsional oscillator measurements. The two phenomena
are clearly related and crystal defects, particularly dislocations, appear to
be involved in both. We have studied the effects of annealing and the effects
of applying large stresses on the elastic properties of solid 4He, using both
acoustic resonances and direct low-frequency and low-amplitude measurements of
the shear modulus. Both annealing and stressing affect the shear modulus, as
expected if dislocations are responsible. However, it is the high temperature
modulus which is affected; the low temperature behavior is unchanged and
appears to reflect the intrinsic modulus of solid helium. We interpret this
behavior in terms of dislocations which are pinned by isotopic 3He impurities
at low temperatures and so have no effect on the shear modulus. At higher
temperatures they become mobile and weaken the solid. Stressing the crystal at
low temperatures appears to introduce new defects or additional pinning sites
for the dislocation network but these effects can be reversed by heating the
crystal above 500 mK. This is in contrast to dislocations produced during
crystal growth, which are only annealed at temperatures close to melting
Non-linear Elastic Response in Solid Helium: critical velocity or strain
Torsional oscillator experiments show evidence of mass decoupling in solid
4He. This decoupling is amplitude dependent, suggesting a critical velocity for
supersolidity. We observe similar behavior in the elastic shear modulus. By
measuring the shear modulus over a wide frequency range, we can distinguish
between an amplitude dependence which depends on velocity and one which depends
on some other parameter like displacement. In contrast to the torsional
oscillator behavior, the modulus depends on the magnitude of stress, not
velocity. We interpret our results in terms of the motion of dislocations which
are weakly pinned by 3He impurities but which break away when large stresses
are applied
Pressure-driven flow of solid helium
The recent torsional oscillator results of Kim and Chan suggest a supersolid
phase transition in solid 4He. We have used a piezoelectrically driven
diaphragm to study the flow of solid helium through an array of capillaries.
Our measurements showed no indication of low temperature flow, placing
stringent restrictions on supersolid flow in response to a pressure difference.
The average flow speed at low temperatures was less than 1.2x10-14 m/s,
corresponding to a supersolid velocity at least 7 orders of magnitude smaller
than the critical velocities inferred from the torsional oscillator
measurements.Comment: 4 pages, 3 figure
Critical dislocation speed in helium-4 crystals
Our experiments show that in He crystals, the binding of He
impurities to dislocations does not necessarily imply their pinning. Indeed, in
these crystals, there are two different regimes of the motion of dislocations
when impurities bind to them. At lowdriving strain and frequency
, where the dislocation speed is less than a critical value (45
m/s), dislocations and impurities apparently move together. Impurities
really pin the dislocations only at higher values of . The critical
speed separating the two regimes is two orders of magnitude smaller than the
average speed of free He impurities in the bulk crystal lattice.We obtained
this result by studying the dissipation of dislocation motion as a function of
the frequency and amplitude of a driving strain applied to a crystal at low
temperature. Our results solve an apparent contradiction between some
experiments, which showed a frequency-dependent transition temperature from a
soft to a stiff state, and other experiments or models where this temperature
was assumed to be independent of frequency. The impurity pinning mechanism for
dislocations appears to be more complicated than previously assumed
Deformation of Silica Aerogel During Fluid Adsorption
Aerogels are very compliant materials - even small stresses can lead to large
deformations. In this paper we present measurements of the linear deformation
of high porosity aerogels during adsorption of low surface tension fluids,
performed using a Linear Variable Differential Transformer (LVDT). We show that
the degree of deformation of the aerogel during capillary condensation scales
with the surface tension, and extract the bulk modulus of the gel from the
data. Furthermore we suggest limits on safe temperatures for filling and
emptying low density aerogels with helium.Comment: 8 pages, 5 figures, submitted to PR
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