Add to ORKGA new physical model of liquid He^4 based on the hypothesis that rotons behave like tiny quantized circular vortex rings is presented. It is shown that the energy of a state will not only depend on the distribution in numbers of rotons with various momenta, but also on the arrangements and orientations of the rotons. The λ-transition then can be interpreted to reveal two aspects: T_λ is both the lowest temperature at which all helium atoms partake in excitation, and the point of the initiation of the general destruction of order, i.e. the general randomization of the orientation of the rotons. Other implications from the theory are also discussed
Based on the new interpretation that rotons behave like tiny quantized vortex rings, a theory is co...
Liquid helium at low temperatures owes its existence to h through the zero point energy classically ...
W F Vinen suggested in 1961 that the creation of quantized vortex line in superfluid He-4 is impeded...
A new physical model of liquid He^4 based on the hypothesis that rotons behave like tiny quantized c...
A new physical model of liquid He^4 based on the hypothesis that rotons behave like tiny quantized c...
A wave function previously used to represent an excitation (phonon or roton) in liquid helium, inser...
The phonon dispersion curve of a nearly solid liquid is shown to present a roton-like minimum, which...
The phonon dispersion curve of a nearly solid liquid is shown to present a roton-like minimum, which...
A brief critical survey on the hydrodynamic formulations of the superfluid helium is given first. Fo...
A brief critical survey on the hydrodynamic formulations of the superfluid helium is given first. Fo...
Based on a hard-sphere model for superfluid helium we derive a microscopic theory for quasiparticle ...
What is a roton? The existence of rotons, the particle-like excitations that carry much of the therm...
Many models of a roton in superfluid He-4 have been proposed over the years but no general consensus...
A convective model describing the nature and structure of the roton is proposed. According to the mo...
Based on the new interpretation that rotons behave like tiny quantized vortex rings, a theory is co...
Based on the new interpretation that rotons behave like tiny quantized vortex rings, a theory is co...
Liquid helium at low temperatures owes its existence to h through the zero point energy classically ...
W F Vinen suggested in 1961 that the creation of quantized vortex line in superfluid He-4 is impeded...
A new physical model of liquid He^4 based on the hypothesis that rotons behave like tiny quantized c...
A new physical model of liquid He^4 based on the hypothesis that rotons behave like tiny quantized c...
A wave function previously used to represent an excitation (phonon or roton) in liquid helium, inser...
The phonon dispersion curve of a nearly solid liquid is shown to present a roton-like minimum, which...
The phonon dispersion curve of a nearly solid liquid is shown to present a roton-like minimum, which...
A brief critical survey on the hydrodynamic formulations of the superfluid helium is given first. Fo...
A brief critical survey on the hydrodynamic formulations of the superfluid helium is given first. Fo...
Based on a hard-sphere model for superfluid helium we derive a microscopic theory for quasiparticle ...
What is a roton? The existence of rotons, the particle-like excitations that carry much of the therm...
Many models of a roton in superfluid He-4 have been proposed over the years but no general consensus...
A convective model describing the nature and structure of the roton is proposed. According to the mo...
Based on the new interpretation that rotons behave like tiny quantized vortex rings, a theory is co...
Based on the new interpretation that rotons behave like tiny quantized vortex rings, a theory is co...
Liquid helium at low temperatures owes its existence to h through the zero point energy classically ...
W F Vinen suggested in 1961 that the creation of quantized vortex line in superfluid He-4 is impeded...