Kinematic and thermodynamic stability of vortices in superfluids

Kinematic and thermodynamic stability of vortices in superfluids

The equations of motion of vortices in an ideal two-dimensional fluid are derived, and the laws of conservation associated with the motion are discussed. Two regions of flow are considered, an infinite region and a region bounded on the outside by a circle. The kinetic energy and angular momentum of...

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Main Author: Chapman, David M. F.
Language:English
Published: 2010
Online Access:http://hdl.handle.net/2429/20264
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spelling ndltd-UBC-oai-circle.library.ubc.ca-2429-202642018-01-05T17:40:26Z Kinematic and thermodynamic stability of vortices in superfluids Chapman, David M. F. The equations of motion of vortices in an ideal two-dimensional fluid are derived, and the laws of conservation associated with the motion are discussed. Two regions of flow are considered, an infinite region and a region bounded on the outside by a circle. The kinetic energy and angular momentum of a vortex fluid in these two regions are calculated. A Lagrangian formalism is introduced in order to discuss the symmetry transformations of vortex systems and their associated conservation laws. The kinematic stability of rigidly rotating polygonal configurations of quantized vortices is determined, and the states of thermodynamic equilibrium of a rotating superfluid are found for low angular velocities, resulting in the calculation of the spectrum of critical angular velocities for the creation of one, two, and three vortices. Science, Faculty of Physics and Astronomy, Department of Graduate 2010-02-16T02:12:25Z 2010-02-16T02:12:25Z 1977 Text Thesis/Dissertation http://hdl.handle.net/2429/20264 eng For non-commercial purposes only, such as research, private study and education. Additional conditions apply, see Terms of Use https://open.library.ubc.ca/terms_of_use.
collection NDLTD
language English
sources NDLTD
description The equations of motion of vortices in an ideal two-dimensional fluid are derived, and the laws of conservation associated with the motion are discussed. Two regions of flow are considered, an infinite region and a region bounded on the outside by a circle. The kinetic energy and angular momentum of a vortex fluid in these two regions are calculated. A Lagrangian formalism is introduced in order to discuss the symmetry transformations of vortex systems and their associated conservation laws. The kinematic stability of rigidly rotating polygonal configurations of quantized vortices is determined, and the states of thermodynamic equilibrium of a rotating superfluid are found for low angular velocities, resulting in the calculation of the spectrum of critical angular velocities for the creation of one, two, and three vortices. === Science, Faculty of === Physics and Astronomy, Department of === Graduate
author Chapman, David M. F.
spellingShingle Chapman, David M. F.
Kinematic and thermodynamic stability of vortices in superfluids
author_facet Chapman, David M. F.
author_sort Chapman, David M. F.
title Kinematic and thermodynamic stability of vortices in superfluids
title_short Kinematic and thermodynamic stability of vortices in superfluids
title_full Kinematic and thermodynamic stability of vortices in superfluids
title_fullStr Kinematic and thermodynamic stability of vortices in superfluids
title_full_unstemmed Kinematic and thermodynamic stability of vortices in superfluids
title_sort kinematic and thermodynamic stability of vortices in superfluids
publishDate 2010
url http://hdl.handle.net/2429/20264
work_keys_str_mv AT chapmandavidmf kinematicandthermodynamicstabilityofvorticesinsuperfluids
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