TY - JOUR
T1 - Simultaneous measurements of an ultrasound and a torsional oscillator for 4He in a nanoporous glass
AU - Kobayashi, Toshiaki
AU - Taniguchi, Junko
AU - Suzuki, Masaru
AU - Shirahama, Keiya
N1 - Funding Information:
Acknowledgements This research is supported by Grant-in-Aid for Scientific Research on Priority Area “Physics of new quantum phases in superclean materials” (Grant No. 17071010) and for Scientific Research (A) (Grant No. 16204028) from The Ministry of Education, Culture, Sports, Science and Technology of Japan.
PY - 2007/9
Y1 - 2007/9
N2 - Previously, we carried out ultrasonic measurements for liquid 4He filled in a nanoporous glass (Gelsil), and observed an increase in the sound velocity due to decoupling of the superfluid component. At zero pressure, the superfluid transition temperature T C is suppressed to 1.4 K from the bulk lambda point, 2.17 K. This behavior is the same as torsional oscillator measurements by Yamamoto et al. (Phys. Rev. Lett. 93:075302, However, the pressure dependence of T C and the temperature dependence of the superfluid fraction are very different from the torsional oscillator measurements. In order to clarify the origin of the difference, we have developed a new technique of simultaneous measurement of an ultrasound and a torsional oscillator, and the system successfully works for a nanoporous glass. Here, we compare decoupling of the superfluid component for 4He films between an ultrasound and a torsional oscillator.
AB - Previously, we carried out ultrasonic measurements for liquid 4He filled in a nanoporous glass (Gelsil), and observed an increase in the sound velocity due to decoupling of the superfluid component. At zero pressure, the superfluid transition temperature T C is suppressed to 1.4 K from the bulk lambda point, 2.17 K. This behavior is the same as torsional oscillator measurements by Yamamoto et al. (Phys. Rev. Lett. 93:075302, However, the pressure dependence of T C and the temperature dependence of the superfluid fraction are very different from the torsional oscillator measurements. In order to clarify the origin of the difference, we have developed a new technique of simultaneous measurement of an ultrasound and a torsional oscillator, and the system successfully works for a nanoporous glass. Here, we compare decoupling of the superfluid component for 4He films between an ultrasound and a torsional oscillator.
KW - 43.35.Cg
KW - 67.40.-w
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U2 - 10.1007/s10909-007-9470-2
DO - 10.1007/s10909-007-9470-2
M3 - Article
AN - SCOPUS:34547092156
SN - 0022-2291
VL - 148
SP - 797
EP - 801
JO - Journal of Low Temperature Physics
JF - Journal of Low Temperature Physics
IS - 5-6
ER -