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21	A passive wireless sensor array for structural health monitoring Chen, Ye, 1986- 02 November 2010 (has links) This thesis summarizes ongoing work to develop low-cost, wireless, resonant sensor array that can be used to monitor corrosion in infrastructure systems. A magnetically coupled sensor array is presented and analyzed using circuit model. The array acts as a magneto-inductive waveguide and the impedance discontinuities caused by corrosion (or other defects) lead to reflection. The relationship between the relative position of defects and pass band characteristics is investigated, providing a technique to determine the location of targets. A configuration for increased sensitivity and a method for defect localization are presented. / text Passive Corrosion Sensor array Magneto-inductive
22	The thermo-magnetic, optical and magneto-optical properties of TbFe, TbFeCo and TbFeCoPr amorphous films Snelling, J. P. January 1993 (has links) No description available. 530.41 Magneto-optical data storage technology
23	Magnetic, magneto-optic & microstructural properties of Co based multilayer films Tatnall, Christopher J. January 1996 (has links) No description available. 530.41 Magneto-optical recording; Thin films
24	Laser cooling and trapping of atoms Cooper, Catherine J. January 1995 (has links) No description available. 535 Magneto-optical traps; Cold atom traps
25	Development and applications of an alternating gradient force magnetometer Lewis, Vernon Geoffrey January 1995 (has links) No description available. 530.41 Thin films; Magneto-optic materials
26	Magnetoplasmonic nanostructures Melander, Emil January 2016 (has links) Surfaces that are nanopatterned, metallic, and magnetic can support surface plasmon resonances, providing an alternative and effective way to reconfigure flat optical components. Utilising a range of near- and far-field characterisation techniques, the optical and magneto-optical properties of lithographically patterned thin magnetic films are investigated. A magneto-optical diffractometer was designed, assembled, and commissioned to characterise periodic magneto-plasmonic nanostructures. For Ni and Co nanostructured antidot arrays, enhanced values of the magneto-optical Kerr rotation were recorded for energies and angles corresponding to excitations of surface plasmon polaritons. This enhancement was found to be thickness dependent. Modification of the optical properties via applied transverse magnetic fields and the excitation of surface plasmon polaritons, was demonstrated for an antidot array of pure Ni. The excitation was also shown to enhance the generation of second harmonics, as well as further activate nonlinear-optical mechanisms. In order to fully resolve and explain the source of this remarkable magneto-optical activity, near field probing techniques were used. This allows for mapping the electric near-field with a sub-wavelength resolution, thereby revealing the interplay between the light and the nanostructured lattice. The measurements show that the electric near field intensification, induced by plasmon excitation, increases the polarisation conversion, which correlates to the observed magneto-optical Kerr rotation. Magnetism nanostructures plasmons magneto-optics magnetoplasmonics
27	Magneto-Optic Spectroscopy and Near-Field Optical Coupling in Nanoparticle Composite Materials Smith, Damon 20 May 2005 (has links) The Faraday rotation spectrum of composites containing magnetite nanoparticles is found to be dependent on the interparticle spacing of the constituent nanoparticles. The composite materials are prepared by combining chemicallysynthesized Fe3O4 (magnetite) nanoparticles (8 nm diameter) and poly(methylmethacrylate) (PMMA). Composites are made containing a range of nanoparticle concentrations. The peak of the main spectral feature depends on nanoparticle concentration; this peak is observed to shift from approximately 470 nm for (dilute composites) to 560 nm (concentrated). A theory is presented based on the dipole approximation which accounts for optical coupling between magnetite particles. Qualitative correlations between theoretical calculations and experimental data suggest the shifts in spectral peak position depend on both interparticle distance and geometrical configuration. Magneto-optics Discrete-dipole approximation Nanocomposites
28	Origin of solar surface activity and sunspots Jabbari, Sarah January 2016 (has links) Sunspots and active regions are two of the many manifestations of the solar magnetic field. This field plays an important role in causing phenomena such as coronal mass ejections, flares, and coronal heating. Therefore, it is important to study the origin of sunspots and active regions and determine the underlying mechanism which creates them. It is believed that flux tubes rising from the bottom of the convection zone can create sunspots. However, there are still unanswered questions about this model. In particular, flux tubes are expected to expand as they rise, hence their strength weakens and some sort of reamplification mechanism must complement this model to match the observational properties of sunspots. To compensate for the absence of such an amplification mechanism, the field strength of the flux tubes, when at the bot- tom of the convection zone, must be far stronger than present dynamo models can explain. In the last few years, there has been significant progress toward a new model of magnetic field concentrations based on the negative effective mag- netic pressure instability (NEMPI) in a highly stratified turbulent plasma. NEMPI is a large-scale instability caused by a negative contribution to the total mean-field pressure due to the suppression of the total turbulent pressure by a large-scale magnetic field. In this thesis, I study for the first time NEMPI in the presence of a dynamo-generated magnetic field in both spherical and Carte- sian geometries. The results of mean-field simulations in spherical geometry show that NEMPI and the dynamo instability can act together at the same time such that we deal with a coupled system involving both NEMPI and dynamo effects simultaneously. I also consider a particular two-layer model which was previously found to lead to the formation of bipolar magnetic structures with super-equipartition strength in the presence of a dynamo-generated field. In this model, the turbulence is forced in the entire domain, but the forcing is made helical in the lower part of the domain, and non-helical in the upper part. The study of such a system in spherical geometry showed that, when the stratification is strong enough, intense bipolar regions form and, as time passes, they expand, merge and create giant structures. To understand the underlying mechanism of the formation of such intense, long-lived bipolar structures with a sharp boundary, we performed a systematic numerical study of this model in plane parallel geometry by varying the magnetic Reynolds number, the scale separation ratio, and Coriolis number. Finally, I investigate the formation of the current sheet between bipolar regions and reconnection of oppositely orientated magnetic field lines and demonstrate that for large Lundquist numbers, S, the reconnection rate is nearly independent of S – in agreement with recent studies in identical settings. Magneto-hydrodynamics solar physics dynamo theory
29	Estudo analítico/experimental de um protótipo de rotor magneto ALÉCIO, Roberto Araújo 31 January 2011 (has links) Made available in DSpace on 2014-06-12T17:36:12Z (GMT). No. of bitstreams: 2 arquivo2113_1.pdf: 3154345 bytes, checksum: 2e81add5d974791ec53289ff589ab5bf (MD5) license.txt: 1748 bytes, checksum: 8a4605be74aa9ea9d79846c1fba20a33 (MD5) Previous issue date: 2011 / Fundação de Amparo à Ciência e Tecnologia do Estado de Pernambuco / Este trabalho objetiva apresentar o desenvolvimento e os resultados do estudo analítico e experimental das energias e forças resultantes em um protótipo de um rotor magneto, desenvolvido experimentalmente. Este rotor tem como princípio de ação motora, as forças de repulsão do campo magnético causadas pelo posicionamento dinâmico de imãs permanentes entre o injetor e o rotor do protótipo. Para este estudo, uma análise global de energia do sistema foi idealizada com base na primeira lei da termodinâmica e uma análise local baseada no cálculo do torque instantâneo em posições estratégicas do movimento do rotor, foi desenvolvida mecanicamente, para verificação analítica da evolução dinâmica das forças magnéticas motrizes. A modelagem das forças magnéticas resistivas, potencialmente atuantes no sistema, foi desenvolvida e analisada através do software MAXWELL®. Para identificação das forças resistivas mecânicas foi concebido um teste experimental utilizando-se o protótipo e um dinamômetro para obtenção do módulo destas forças, dando aos resultados obtidos o tratamento estatístico adequado ao caso. Para o desenvolvimento experimental dos modelos, utilizou-se o software AutoCAD®, que se constituiu em uma ferramenta fundamental na tarefa de transformar concepções em modelos geométricos, modelos físicos e, finalmente, em um protótipo. Esta ferramenta também serviu para identificar as direções das forças nas posições do movimento do rotor para fins de análise mecânica nos cálculos do estudo desenvolvido. Os resultados obtidos através dos estudos analíticos e testes experimentais permitem visualizar uma tendência de que o protótipo em estudo ficaria estacionário, pois, do confronto entre as resultantes das forças motrizes e resistivas, identificou-se semelhança entre suas magnitudes. Este fato faria com que a energia inicialmente aplicada por um agente externo fosse progressivamente dissipada pelas resistências do sistema, causando sua parada Motor magneto Imã permanente Campo magnético
30	Experimental advances toward a compact dual-species laser cooling apparatus Ladouceur, Keith 05 1900 (has links) This thesis describes the advances made towards a dual-species magneto-optical trap (MOT) of Li and Rb for use in photoassociation spectroscopy, Feshbach resonance studies, and, as long-term aspirations, the formation of ultracold heteronuclear polar molecules. The initial discussion will focus on a brief theoretical overview of laser cooling and trapping and the production of ultracold molecules from a cold atom source. Subsequently, details of the experimental system, including those pertaining to the required laser light, the vacuum chamber, and the computer control system will be presented. Finally, preliminary optimization and characterization measurements showing the performance of a single species Li MOT are introduced. These measurements demonstrated the loading of over 8 x 107 Li atoms directly into a MOT without the need for a Zeeman slower. Ultracold molecules Cold atoms Magneto-optical trap

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