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B. Jinchvelashvili, L. Kiknadze, Y. Mamaladze, J. Tsakadze (1968)
SECOND CRITICAL VELOCITY OF LIQUID HELIUM IN A NARROW ANNULUS.Physics Letters A, 27
F. Pobell, W. Schoepe, W. Veith (1967)
The λ-point, entropy and density of rotating HeIIPhysics Letters A, 25
G. Ahlers (1967)
Order of the He4 II-He4 I Transition under RotationPhysical Review
R. Donnelly, A. Fetter (1966)
STABILITY OF SUPERFLUID FLOW IN AN ANNULUSPhysical Review Letters, 17
Ė. Andronikashvili, Y. Mamaladze (1966)
QUANTIZATION OF MACROSCOPIC MOTIONS AND HYDRODYNAMICS OF ROTATING HELIUM IIReviews of Modern Physics, 38
W. Veith, F. Pobell (1968)
The λ - point of 4He in a rotating annulusPhysics Letters A, 27
The λ-temperature of liquid He4 in an annulus was found to be independent of rotation to ±10−5 °K for ε≤35 sec−1, even if the rotating liquid is allowed only 0.5 min. in the He II state to come to rotational equilibrium. This result is in disagreement with a recent publication.
Journal of Low Temperature Physics – Springer Journals
Published: Oct 27, 2004
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