Semiclassical Analysis of Super-Shell Structure in Trapped Fermi Gases

Magnus Ögren

Semiclassical Analysis of Super-Shell Structure in Trapped Fermi Gases

Magnus Ögren

Matematisk fysik

Forskningsoutput: Avhandling › Doktorsavhandling (sammanläggning)

Sammanfattning

This dissertation investigates the oscillation part of the level density for trapped fermions. Analytical so-called trace formulae have been known for the two theoretically important potentials, the spherical cavity and harmonic oscillator, since more than thirty years. In this thesis we explore the regime in between those two limits, motivated by recent experiments with cold atomic Fermi gases. With semiclassical periodic orbit theory we analyze in particular the three-dimensional spherical system of a quartic perturbed harmonic oscillator. Super-shell structures are found and explained in terms of two classical periodic orbits, the diameter and the circle. This result is remarkable as the geometric degeneracies of those orbits are lower than those of the more common (star-like) type of orbits.

Originalspråk	engelska
Kvalifikation	Doktor
Tilldelande institution	Matematisk fysik
Handledare	Reimann-Wacker, Stephanie M, handledare
Tilldelningsdatum	2008 okt. 24
Förlag	Department of Physics, Lund University
ISBN (tryckt)	978-91-628-7541-1
Status	Published - 2008

Bibliografisk information

Defence details

Date: 2008-10-24
Time: 13:30
Place: Lecture hall F, Fysicum, Sölvegatan 14A, Lund university, Faculty of Engineering

External reviewer(s)

Name: Leboeuf, Patricio
Title: Dr
Affiliation: Laboratoire de Physique Theorique et Modeles Statistiques

---

The information about affiliations in this record was updated in December 2015.
The record was previously connected to the following departments: Mathematical Physics (Faculty of Technology) (011040002)

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title = "Semiclassical Analysis of Super-Shell Structure in Trapped Fermi Gases",

abstract = "This dissertation investigates the oscillation part of the level density for trapped fermions. Analytical so-called trace formulae have been known for the two theoretically important potentials, the spherical cavity and harmonic oscillator, since more than thirty years. In this thesis we explore the regime in between those two limits, motivated by recent experiments with cold atomic Fermi gases. With semiclassical periodic orbit theory we analyze in particular the three-dimensional spherical system of a quartic perturbed harmonic oscillator. Super-shell structures are found and explained in terms of two classical periodic orbits, the diameter and the circle. This result is remarkable as the geometric degeneracies of those orbits are lower than those of the more common (star-like) type of orbits.",

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PY - 2008

Y1 - 2008

N2 - This dissertation investigates the oscillation part of the level density for trapped fermions. Analytical so-called trace formulae have been known for the two theoretically important potentials, the spherical cavity and harmonic oscillator, since more than thirty years. In this thesis we explore the regime in between those two limits, motivated by recent experiments with cold atomic Fermi gases. With semiclassical periodic orbit theory we analyze in particular the three-dimensional spherical system of a quartic perturbed harmonic oscillator. Super-shell structures are found and explained in terms of two classical periodic orbits, the diameter and the circle. This result is remarkable as the geometric degeneracies of those orbits are lower than those of the more common (star-like) type of orbits.

AB - This dissertation investigates the oscillation part of the level density for trapped fermions. Analytical so-called trace formulae have been known for the two theoretically important potentials, the spherical cavity and harmonic oscillator, since more than thirty years. In this thesis we explore the regime in between those two limits, motivated by recent experiments with cold atomic Fermi gases. With semiclassical periodic orbit theory we analyze in particular the three-dimensional spherical system of a quartic perturbed harmonic oscillator. Super-shell structures are found and explained in terms of two classical periodic orbits, the diameter and the circle. This result is remarkable as the geometric degeneracies of those orbits are lower than those of the more common (star-like) type of orbits.

KW - Fysicumarkivet A:2008:Ögren

M3 - Doctoral Thesis (compilation)

SN - 978-91-628-7541-1

PB - Department of Physics, Lund University

ER -

Semiclassical Analysis of Super-Shell Structure in Trapped Fermi Gases

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