By means of neutron Compton scattering, we have measured the momentum distribution of 4He, on the isotherm T=6.1 K, in the pressure range between 0 and 500 bars. The second moment of the distribution gives the value of the kinetic energy. This is a function of density that increases from the classical value 3/2kBT up to ~5 times this value in the compressed solid. The kinetic energy data show a change in the density behavior at melting. This suggests that the change of symmetry influences the single-particle distribution function.

Density evolution of the kinetic energy of fluid and solid 4He at T=6.1 K

U Bafile;M Zoppi;
1996

Abstract

By means of neutron Compton scattering, we have measured the momentum distribution of 4He, on the isotherm T=6.1 K, in the pressure range between 0 and 500 bars. The second moment of the distribution gives the value of the kinetic energy. This is a function of density that increases from the classical value 3/2kBT up to ~5 times this value in the compressed solid. The kinetic energy data show a change in the density behavior at melting. This suggests that the change of symmetry influences the single-particle distribution function.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/142426
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