Russell J. Donnelly
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Table
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: : 4 : : 5
Saturated Vapor Pressure
The
Calculated Thermodynamic Properties of Superfluid Helium-4
James S. Brooks and Russell J. Donnelly
7. References
[1]
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[16] Brooks, J.,S., and Donnelly, R. J., Model Dispersion Curves for Helium
II, in,Low Temperature Physics-LT13, Vol. 1, K. D. Timmerhaus, W. J. O'Sullivan,
and E. F. Hammel, eds., Plenum Publishing, New York (1974).
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II: A Series Representation, Phys. Lett. 46A, 111 (1973).
[18] Brooks, J. S., The Properties of Superfluid Helium Below 1.6 Degrees
Kelvin, Ph.D. Thesis, University of Oregon, Eugene, Oregon (1973).
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Helium II. A Technical Report, University of Oregon, Eugene (1973,).
[20]. Van Degrift, C. T., Dielectric Constant, Density, and Expansion
Coefficient of Liquid He4 at Vapor Pressure Below 4.4 K, Ph.D. Thesis,
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H., Quasiparticles and Thermal Expansion, Phys. Lett. 54A, 281 (1975).
[23] Roberts, P. H., and Donnelly, R. J., Simple Theory of Temperature-Dependent
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27, 687-736 (1977)..
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Near the Disintegration Threshold of the Excitations, J. Exptl. Theoret.
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on the Velocity of Second Sound in He II, Phys. Rev. A 9, 1444 (1974).
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[36] Wiebes,J., Ph.D. Thesis, Kammerlingh Onnes Laboratory, Leiden (1969).
Caloric Measurements on Liquid and Melting Helium below 1.5 Kelvin.
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Schrödinger Equation, J. Phys. A7, 1283 (1974).
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Helium, in New Directions in Physical Acoustics, International School
of Physics "Enrico Fermi." XLIII Corso (In press).
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in Liquid Helium II from 0.15 to 1.8'K, Phys. Rev. 158, 200 (1967).
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High Pressures, Can. J. Phys. 31, 1156 (1953).
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Helium II , Phys. Rev. 97, 1429 (1955).
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