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Path-integral computation of superfluid densities
E. L. Pollock,
D. M. Ceperley
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Keyphrases
Path Integral
100%
Superfluid Density
100%
Normal Density
40%
Superfluid
20%
Transition Temperature
20%
Linear Response
20%
Experimental Values
20%
Sample Size Effect
20%
Density Correlation Function
20%
Superfluid Fraction
20%
Superfluid Transition
20%
Statistical Uncertainty
20%
Path Integral Method
20%
Free Energy Change
20%
Momentum Density
20%
Winding number
20%
Vapor Pressure Curve
20%
Bose System
20%
Periodic Unit Cell
20%
Finite Sample Size
20%
Saturated Vapor Pressure
20%
Chemistry
Supercritical Fluid
100%
Path Integral
100%
Gibbs Free Energy
12%
Vapor Pressure
12%
Size Effect
12%
Saturated Vapor
12%
Engineering
Superfluids
100%
Linear Response
12%
Size Effect
12%
Winding Number
12%
Experimental Value
12%
Path Integral Method
12%
Saturated Vapor Pressure
12%
Free Energy Change
12%
Physics
Superfluid
100%
Free Energy
12%