论文信息 - Adsorption properties and third sound propagation in superfluid 4 He films on carbon nanotubes

Adsorption properties and third sound propagation in superfluid 4 He films on carbon nanotubes

We consider the adsorption properties of superfluid 4He films on carbon nanotubes. One major factor in the adsorption is the surface tension force arising from the very small diameter of the nanotubes. Calculations show that surface tension keeps the film thickness on the tubes very thin even when the helium vapor is increased to the saturated pressure. The weakened Van der Waals force due to the cylindrical geometry also contributes to this. Both of these effects act to lower the predicted velocity of third sound propagation along the tubes. It does not appear that superfluidity will be possible on single-walled nanotubes of diameter about one nm, since the film thickness is less than 3 atomic layers even at saturation. Superfluidity is possible on larger-diameter nanotube bundles and multi-walled nanotubes, however. We have observed third sound signals on nanotube bundles of average diameter 5 nm which are sprayed onto a Plexiglass surface, forming a network of tubes.

S. Vo | A. Kogar | G. Williams | Hosseini Fard

[1] Liangbing Hu,et al. Conductivity scaling with bundle length and diameter in single walled carbon nanotube networks , 2006 .

[2] H. Chu,et al. Superfluid Density of 4He Films Adsorbed in Porous MCM-41 Ceramic , 2004 .

[3] V. A. Kirsh (Kirsch). Calculation of the van der Waals force between a spherical particle and an infinite cylinder. , 2003, Advances in colloid and interface science.

[4] A. Corwin,et al. Density Dependence of Transition Temperature of 4He Films in Vycor Glass , 2000 .

[5] Hyung-Man Cho,et al. Vortex Core Size in Submonolayer Superfluid 4He Films. , 1995 .

[6] J. Machta,et al. Superfluid films on a cylindrical surface , 1989 .

[7] Williams,et al. Superfluid transition of 4He films adsorbed in porous materials. , 1986, Physical review. B, Condensed matter.

[8] R. Rosenbaum,et al. Surface tension sound in superfluid helium films adsorbed on alumina powder , 1979 .

[9] M. W. Cole,et al. Excitations and thermodynamics for liquid-helium films , 1975 .

[10] G. Williams. Vortex-Ring Specific Heat of Superfluid Helium in Porous Materials , 1998 .

[11] Hyung-Man Cho,et al. Superfluid Phase Transition of 3He-4He Mixture Films Adsorbed on Alumina Powder , 1998 .