Extremely High Frequency Dependence of Two-Dimensional Superfluid Onset

Hieda, Mitsunori; Matsuda, Kenji; Kato, Tsuyoshi; Matsushita, Tomohiro; Wada, Nobuo

doi:10.1143/jpsj.78.033604

Cited by 20 publications

(16 citation statements)

References 19 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The onset and dissipation peak temperatures increase with increasing frequency. At 140 MHz on gold substrate, the onset temperature at 0.7 K is about 25 % higher than T KT = 0.561 K. As reported in our previous papers [6,13], the coverage dependence on both gold and H 2 substrates is explained by the KT universal line expected from T KT = πh 2 2k B m 2 σ s , where m is atomic mass of 4 He,h the Planck constant, k B the Boltzmann constant. In terms of the onset coverage, we observe a substrate dependence.…”

Section: Pure 4 He Film On Au and Hsupporting

confidence: 67%

“…At extremely high frequencies, the superfluid density will be observed far above T KT up to T GL in terms of the GL theory. In our previous paper [6] on gold substrate, we report that eq. (2) explains the superfluid transition at extremely high frequencies where the diffusion length r D = 14 nm (180 MHz) is only three times larger than a 0 ∼ 4 nm at the lowest measured temperature (70 mK).…”

Section: Analysis: Frequency Dependence Of Dynamic Kt Superfluid Tranmentioning

confidence: 90%

“…Important vortex parameters (the diffusion constant D, the core diameter a 0 ) have been extensively studied on flat and porous substrates by various techniques [2,3, 4]. Most of the researches have been done for the thicker films above the coverage with T KT = 1 K. On the other hand, in the thinner coverage region, there is only a few systematic studies [5,6,7] on the vortex properties, and the important vortex parameters D, a 0 , and even the combination of the two parameters D/a 0 2 are not well determined. In most of the experiments D/a 0 2 is estimated, since D and a 0 are the difficult quantities to be estimated independently.…”

mentioning

confidence: 99%

See 2 more Smart Citations

QCM Study on 2D Vortex in Superfluid⁴He and³He-⁴He Mixture Films

Hieda¹,

Oda²,

Matsushita³

et al. 2012

J. Phys.: Conf. Ser.

View full text Add to dashboard Cite

Abstract. Two-dimensional (2D)4 He fluid films show the Kosterlitz-Thouless (KT) transition where pairing and unpairing of the thermally excited 2D vortices play an important role. However, in the superfluid submonolayer, the vortex parameters (the diffusion constant D, the core diameter a 0 ) have been incompletely estimated for various conditions. Here, we undertake QCM measurements for pure 4 He films (on gold and H2 substrates) and 3 He-4 He mixture films (on gold substrate), and accurately determine the parameter D/a 2 0 by the high frequency dependence of the superfluid onset from 20 to 180 MHz. By the comparison of the results of pure 4 He film on gold and H2 substrates, the vortex diffusion in our study has the largest value D ∼h/m in the quantum limit. The core diameter a 0 is estimated to be the same magnitude as the de Broglie wavelength at TKT between 0.1 and 0.9 K. In terms of 3 He-4 He mixture films, we observe no effect of 3 He on the vortex parameters up to the 3 He coverage of 15.1 µmol/m 2 . IntroductionTwo-dimensional (2D) 4 He fluid films on various substrates show the Kosterlitz-Thouless (KT) superfluid transition [1] where pairing and unpairing of the thermally excited 2D vortices play a major role. Important vortex parameters (the diffusion constant D, the core diameter a 0 ) have been extensively studied on flat and porous substrates by various techniques [2,3, 4]. Most of the researches have been done for the thicker films above the coverage with T KT = 1 K. On the other hand, in the thinner coverage region, there is only a few systematic studies [5,6,7] on the vortex properties, and the important vortex parameters D, a 0 , and even the combination of the two parameters D/a 0 2 are not well determined. In most of the experiments D/a 0 2 is estimated, since D and a 0 are the difficult quantities to be estimated independently. In this paper, we report the accurate determination of the parameter D/a 2 0 in the superfluid submonolayer region by the frequency dependence of the superfluid onset from 20 to 180 MHz by a quartz crystal microbalance (QCM). To study on the 2D vortex under various conditions, the QCM measurements have been done for pure 4 He films on H 2 substrate and 3 He-4 He mixture films on gold substrate, and then both the experiments are compared to the pure 4 He study on gold. H 2 substrate is a weak binding substrate which is prepared by preplating on gold. We can examine substrate dependences, the effects of varying the 4 He-substrate potential strength and smoothing out the surface roughness. In terms of 3 He-4 He mixture films, it is reported that the vortex core size increases nearly linearly with added 3 He to a pure 4 He film in the previous torsional oscillator (TO) study on porous alumina of 50 nm powder [8]. It is interesting of a question as to whether the 3 He effect is reproduced on planar substrate.

show abstract

Section: Pure 4 He Film On Au and Hsupporting

confidence: 67%

Section: Analysis: Frequency Dependence Of Dynamic Kt Superfluid Tranmentioning

confidence: 90%

mentioning

confidence: 99%

See 1 more Smart Citation

QCM Study on 2D Vortex in Superfluid⁴He and³He-⁴He Mixture Films

Hieda¹,

Oda²,

Matsushita³

et al. 2012

J. Phys.: Conf. Ser.

View full text Add to dashboard Cite

show abstract

“…Substrate dependence of the vortex parameters is likely to be observed [62]. It will allow to study at the breakdown frequency condition for the present dynamic theory where the fre- …”

Section: Microscopic Properties Of Superfluid Vortices In 4 He Filmsmentioning

confidence: 95%

“…Although the most important vortex parameters (the diffusion constant D, the core diameter a 0 ) have been experimentally obtained [56][57][58][59][60][61], these have not sufficient accuracies in various conditions even for the typical 2D KT transition. Here, the microscopic vortex parameters are precisely estimated by the dependence of the superfluid onset on the extremely high measurement frequency at the temperatures between 0.05 and 0.9 K [62].…”

Section: Microscopic Properties Of Superfluid Vortices In 4 He Filmsmentioning

confidence: 99%

Fluid States of Helium Adsorbed in Nanopores

et al. 2009

Self Cite

View full text Add to dashboard Cite

We have studied helium adsorbed in new nanopores which have regular structures from nano-cage to three-dimensionally (3D) connected pores. Adsorption potential and layer formation of the adsorbed helium are observed by the vapor pressure for the adsorption. New paradigms of zero-D and 1D helium fluids are realized in nano-cages and nano-channels, respectively. The superfluid onsets (transitions) in the 1D and 3D nanopores show obvious dependence on the pore connections. The superfluid in the 3D pores has properties similar to the Bose-Einstein condensation of the 3D Bose atomic gas. The films of the 3 He gas formed in the 4 He preplated nanopores show the dimensional crossover depending on the pore connection: from the 2D Boltzmann gas to a 1D or 3D gas state with decreasing temperature. This gas changes to the degenerate state in each dimension at the lower temperatures. Extremely high frequency measurements of the helium adatoms on flat substrate determined the superfluid vortex parameters of the 4 He films, and revealed a slippage (decoupling) of the helium adatoms in the non-superfluid state.

show abstract