Many Body Topics in Condensed Matter Physics
Made available in DSpace on 2011-01-14T22:40:31Z (GMT). No. of bitstreams: 3 Anduaga_Inaki.pdf: 628970 bytes, checksum: c30c70bc75738c6ce4b0eb4b5f15ccf7 (MD5) license.txt: 4063 bytes, checksum: 9871e0df74b0ca10170a25e209c70f40 (MD5) Anduaga_Inaki.tex: 251490 bytes, checksum: 4f981222c850db894bc969ae...
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| Language: | English |
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2010
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| Online Access: | http://hdl.handle.net/2142/18225 |
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ftunivillidea:oai:www.ideals.illinois.edu:2142/18225 2024-10-13T14:08:38+00:00 Many Body Topics in Condensed Matter Physics Anduaga, Inaki P. Stone, Michael Leigh, Robert G. Oono, Yoshitsugu Greene, Laura H. 2010-12 http://hdl.handle.net/2142/18225 en eng http://hdl.handle.net/2142/18225 Copyright 2010 Inaki P. Anduaga Calogero Sutherland Model Integrable systems Helium 3 angular momentum paradox p+ip superfluid angular momentum 2010 ftunivillidea 2024-10-01T12:57:42Z Made available in DSpace on 2011-01-14T22:40:31Z (GMT). No. of bitstreams: 3 Anduaga_Inaki.pdf: 628970 bytes, checksum: c30c70bc75738c6ce4b0eb4b5f15ccf7 (MD5) license.txt: 4063 bytes, checksum: 9871e0df74b0ca10170a25e209c70f40 (MD5) Anduaga_Inaki.tex: 251490 bytes, checksum: 4f981222c850db894bc969aed7f92f64 (MD5) Two different problems involving many-body systems are presented. A hydrodynamic version of the Calogero system of one-dimensional particles interacting on the line is derived using a classical field formalism, and the results are contrasted to a derivation starting from first quantum mechanical principles. This new classical approach is shown to help in understanding subtleties occurring in the latter, such as the conditions for chiral motion, the decomposition of the Hamiltonian in terms of chiral currents and the nature of the physical velocity and density operators. Explicit collective solitonic excitations in the linear and non-linear limits are also presented. Additionally, we overview the possibility of expanding this formalism to the study of the Fractional Quantum Hall Effect. The second problem involves a simple two-dimensional model of a px + ipy superfluid in which the mass flow that gives rise to the intrinsic angular momentum is easily calculated by numerical diagonalization of the Bogoliubovde Gennes operator. The results confirm theoretical predictions such as the Thomas-Fermi approximation and the Ishikawa formula, in which the mass flow at zero-temperature and for a constant director l follows jmass = 1/2 curl(ρ hbar l/2). Item withdrawn by Rebecca Bryant (rabryant@illinois.edu) on 2010-08-05T16:33:58Z Item was in collections: University of Illinois Theses & Dissertations (ID: 1) No. of bitstreams: 2 Anduaga_Inaki.tex: 251490 bytes, checksum: 4f981222c850db894bc969aed7f92f64 (MD5) Anduaga_Inaki.pdf: 629007 bytes, checksum: 8e8bc774157bdac4dbed4bbe7eb9ddb7 (MD5) Other/Unknown Material IPY University of Illinois at Urbana-Champaign: IDEALS (Illinois Digital Environment for Access to Learning and Scholarship) Curl ENVELOPE(-63.071,-63.071,-70.797,-70.797) Sutherland ENVELOPE(168.467,168.467,-77.500,-77.500) Bryant ENVELOPE(-60.942,-60.942,-71.236,-71.236) |
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Calogero Sutherland Model Integrable systems Helium 3 angular momentum paradox p+ip superfluid angular momentum |
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Calogero Sutherland Model Integrable systems Helium 3 angular momentum paradox p+ip superfluid angular momentum Anduaga, Inaki P. Many Body Topics in Condensed Matter Physics |
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Calogero Sutherland Model Integrable systems Helium 3 angular momentum paradox p+ip superfluid angular momentum |
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Made available in DSpace on 2011-01-14T22:40:31Z (GMT). No. of bitstreams: 3 Anduaga_Inaki.pdf: 628970 bytes, checksum: c30c70bc75738c6ce4b0eb4b5f15ccf7 (MD5) license.txt: 4063 bytes, checksum: 9871e0df74b0ca10170a25e209c70f40 (MD5) Anduaga_Inaki.tex: 251490 bytes, checksum: 4f981222c850db894bc969aed7f92f64 (MD5) Two different problems involving many-body systems are presented. A hydrodynamic version of the Calogero system of one-dimensional particles interacting on the line is derived using a classical field formalism, and the results are contrasted to a derivation starting from first quantum mechanical principles. This new classical approach is shown to help in understanding subtleties occurring in the latter, such as the conditions for chiral motion, the decomposition of the Hamiltonian in terms of chiral currents and the nature of the physical velocity and density operators. Explicit collective solitonic excitations in the linear and non-linear limits are also presented. Additionally, we overview the possibility of expanding this formalism to the study of the Fractional Quantum Hall Effect. The second problem involves a simple two-dimensional model of a px + ipy superfluid in which the mass flow that gives rise to the intrinsic angular momentum is easily calculated by numerical diagonalization of the Bogoliubovde Gennes operator. The results confirm theoretical predictions such as the Thomas-Fermi approximation and the Ishikawa formula, in which the mass flow at zero-temperature and for a constant director l follows jmass = 1/2 curl(ρ hbar l/2). Item withdrawn by Rebecca Bryant (rabryant@illinois.edu) on 2010-08-05T16:33:58Z Item was in collections: University of Illinois Theses & Dissertations (ID: 1) No. of bitstreams: 2 Anduaga_Inaki.tex: 251490 bytes, checksum: 4f981222c850db894bc969aed7f92f64 (MD5) Anduaga_Inaki.pdf: 629007 bytes, checksum: 8e8bc774157bdac4dbed4bbe7eb9ddb7 (MD5) |
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Stone, Michael Leigh, Robert G. Oono, Yoshitsugu Greene, Laura H. |
| author |
Anduaga, Inaki P. |
| author_facet |
Anduaga, Inaki P. |
| author_sort |
Anduaga, Inaki P. |
| title |
Many Body Topics in Condensed Matter Physics |
| title_short |
Many Body Topics in Condensed Matter Physics |
| title_full |
Many Body Topics in Condensed Matter Physics |
| title_fullStr |
Many Body Topics in Condensed Matter Physics |
| title_full_unstemmed |
Many Body Topics in Condensed Matter Physics |
| title_sort |
many body topics in condensed matter physics |
| publishDate |
2010 |
| url |
http://hdl.handle.net/2142/18225 |
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ENVELOPE(-63.071,-63.071,-70.797,-70.797) ENVELOPE(168.467,168.467,-77.500,-77.500) ENVELOPE(-60.942,-60.942,-71.236,-71.236) |
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Curl Sutherland Bryant |
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Curl Sutherland Bryant |
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IPY |
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IPY |
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http://hdl.handle.net/2142/18225 |
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Copyright 2010 Inaki P. Anduaga |
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