Friction force on a vortex due to the scattering of superfluid excitations in helium II

The longitudinal friction acting on a vortex line in superfluid 4He is investigated within a simple model based on the analogy between such vortex dynamics and that of the quantal Brownian motion of a charged point particle in a uniform magnetic field. The scattering of superfluid quasiparticle exci...

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Publicado:	2002
Materias:	helium article elementary particle force friction liquid magnetic field model motion quantum mechanics
Acceso en línea:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_01631829_v65_n18_p1845231_Cataldo http://hdl.handle.net/20.500.12110/paper_01631829_v65_n18_p1845231_Cataldo
Aporte de:	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires

id	paper:paper_01631829_v65_n18_p1845231_Cataldo
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spelling	paper:paper_01631829_v65_n18_p1845231_Cataldo2023-06-08T15:13:57Z Friction force on a vortex due to the scattering of superfluid excitations in helium II helium article elementary particle force friction liquid magnetic field model motion quantum mechanics The longitudinal friction acting on a vortex line in superfluid 4He is investigated within a simple model based on the analogy between such vortex dynamics and that of the quantal Brownian motion of a charged point particle in a uniform magnetic field. The scattering of superfluid quasiparticle excitations by the vortex stems from a translationally invariant interaction potential which, expanded to first order in the vortex velocity operator, gives rise to vortex transitions between nearest Landau levels. The corresponding friction coefficient is shown to be, in the limit of elastic scattering (vanishing cyclotron frequency), equivalent to that arising from the Iordanskii formula. Proposing a simple functional form for the scattering amplitude, with only one adjustable parameter whose value is set in order to get agreement to the Iordanskii result for phonons, an excellent agreement is also found with the values derived from experimental data up to temperatures about 1.5 K. Finite values of the cyclotron frequency arising from recent theories are shown to yield similar results. The incidence of vortex-induced quasiparticle transitions on the friction process is estimated to be, in the roton dominated regime, about 50% of the value of the friction coefficient, ∼8% of which corresponds to roton-phonon transitions and ∼42% to roton R+↔R- ones. 2002 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_01631829_v65_n18_p1845231_Cataldo http://hdl.handle.net/20.500.12110/paper_01631829_v65_n18_p1845231_Cataldo
institution	Universidad de Buenos Aires
institution_str	I-28
repository_str	R-134
collection	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic	helium article elementary particle force friction liquid magnetic field model motion quantum mechanics
spellingShingle	helium article elementary particle force friction liquid magnetic field model motion quantum mechanics Friction force on a vortex due to the scattering of superfluid excitations in helium II
topic_facet	helium article elementary particle force friction liquid magnetic field model motion quantum mechanics
description	The longitudinal friction acting on a vortex line in superfluid 4He is investigated within a simple model based on the analogy between such vortex dynamics and that of the quantal Brownian motion of a charged point particle in a uniform magnetic field. The scattering of superfluid quasiparticle excitations by the vortex stems from a translationally invariant interaction potential which, expanded to first order in the vortex velocity operator, gives rise to vortex transitions between nearest Landau levels. The corresponding friction coefficient is shown to be, in the limit of elastic scattering (vanishing cyclotron frequency), equivalent to that arising from the Iordanskii formula. Proposing a simple functional form for the scattering amplitude, with only one adjustable parameter whose value is set in order to get agreement to the Iordanskii result for phonons, an excellent agreement is also found with the values derived from experimental data up to temperatures about 1.5 K. Finite values of the cyclotron frequency arising from recent theories are shown to yield similar results. The incidence of vortex-induced quasiparticle transitions on the friction process is estimated to be, in the roton dominated regime, about 50% of the value of the friction coefficient, ∼8% of which corresponds to roton-phonon transitions and ∼42% to roton R+↔R- ones.
title	Friction force on a vortex due to the scattering of superfluid excitations in helium II
title_short	Friction force on a vortex due to the scattering of superfluid excitations in helium II
title_full	Friction force on a vortex due to the scattering of superfluid excitations in helium II
title_fullStr	Friction force on a vortex due to the scattering of superfluid excitations in helium II
title_full_unstemmed	Friction force on a vortex due to the scattering of superfluid excitations in helium II
title_sort	friction force on a vortex due to the scattering of superfluid excitations in helium ii
publishDate	2002
url	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_01631829_v65_n18_p1845231_Cataldo http://hdl.handle.net/20.500.12110/paper_01631829_v65_n18_p1845231_Cataldo
_version_	1768545368720539648

Friction force on a vortex due to the scattering of superfluid excitations in helium II

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