Global ETD Search

41	Première mesure des résonances géantes isoscalaires dans un noyau exotique riche en neutrons : le 68Ni avec la cible active Maya / First measurement of the isoscalar giant resonances in a neutron rich exotic nucleus (68Ni) using Maya active target Vandebrouck, Marine 13 September 2013 (has links) L’étude des résonances géantes monopolaires isoscalaires (ISGMR) et des résonances géantes quadrupolaires isoscalaires (ISGQR) dans les noyaux stables, a permis d’obtenir ces dernières décennies des informations fondamentales sur la structure et la matière nucléaire. En particulier, le centroïde de la ISGMR peut être relié au module d’incompressibilité de la matière nucléaire infinie. Des données dans les noyaux exotiques nous aideraient à contraindre ce module d’incompressibilité. Dans les noyaux instables, une seule mesure a, à l’heure actuelle, été réalisée (56Ni). Afin d’étudier l’évolution de la ISGMR et de la ISGQR le long d’une chaîne isotopique, des mesures dans un noyau exotique riche en neutrons sont donc nécessaires.L’expérience étudiée dans cette thèse a été réalisée au Grand Accélérateur National d’Ions Lourds (GANIL) à Caen en septembre 2010. Un faisceau de 68Ni à 50 AMeV et d’une intensité de 10^4 pps a été produit et purifié sur la ligne LISE. Les réactions de diffusion inélastique de particules alpha (alpha, alpha’) et de deutons (d,d’) sur 68Ni en cinématique inverse ont été étudiées avec la cible active Maya. Il s’agit de la première mesure de la ISGMR et de la ISGQR dans un noyau instable riche en neutrons.Pour chaque expérience, le spectre en énergie d’excitation a été reconstruit et les distributions angulaires étudiées par deux méthodes indépendantes. Les sections efficaces expérimentales ont été comparées à celles issues de calculs DWBA utilisant des densités de transition RPA. L’analyse en (alpha, alpha’) a permis l’observation d’une ISGMR fragmentée avec un épaulement à 21.1+/-0.6 MeV, d’une ISGQR concentrée à 16.9+/-0.8 MeV qui épuise 61+/-17% de la règle de somme pondérée en énergie (EWSR). De plus, un mode « soft GMR », prédit mais jamais observé, a été identifié à 13.4+/-0.5 MeV. Tous ces résultats sont confirmés par l’analyse en (d,d’), à l’exception de l’observation de la ISGQR pour laquelle les conditions de fonctionnement n’étaient pas favorables. / The study of the Isoscalar Giant Monopole Resonance (ISGMR) and the Isoscalar Giant Quadrupole Resonance (ISGQR) in stable nuclei provided relevant information on both nuclear matter and nuclear structure in past decades. For instance the centroid of the ISGMR can be linked to the incompressibility modulus of the infinite nuclear matter. Values for exotic nuclei would help in constraining it. In unstable nuclei, only one measurement has been performed so far (56Ni) and in order to study the evolution of the ISGMR and the ISGQR along an isotopic chain, measurements in neutron-rich Ni are called for.To reach this goal, a dedicated experiment was performed at GANIL in Septembre 2010. A 68Ni beam at 50 AMeV and with an intensity of 10^4 pps has been produced on LISE beamline. The inelastic scattering of alpha (alpha, alpha’) and deuteron particles (d,d’) on 68Ni in inverse kinematics has been studied with the active target Maya. It is the first attempt to measure the ISGMR and ISGQR in an unstable neutron-rich nucleus. For each experiment, the excitation energy spectrum has been reconstructed and the angular distributions have been studied with two independant methods. Experimental differential cross sections have been compared to DWBA calculations using RPA transition density in order to deduce the properties of the states observed. Concerning the analysis in (alpha, alpha’), the ISGMR is fragmented with a shoulder at 21.1+/-0.6 MeV, the ISGQR is concentred at 16.9+/-0.8 MeV and exhausted 61+/-17% of the Energy Weighted Sum Rule (EWSR). Moreover, a « soft GMR », predicted but never observed, is identified at 13.4+/-0.5 MeV. All these results are confirmed with the experiment in (d,d’), with the exception of the ISGQR due to unadapted experimental conditions. Structure nucléaire Noyau exotique Diffusion inélastique Résonance géante Cible active Incompressibilité Mode soft Nuclear structure Exotic nuclei Inelastic scattering Giant resonance Active target Incompressibility Soft GMR
42	Magnetoresistance in Permalloy/GaMnAs Circular Microstructures Guenther, Justin 15 August 2014 (has links) No description available. Condensed Matter Physics Electromagnetics Materials Science Nanoscience Physics Solid State Physics Magnetoresistance Giant Magnetoresistance Permalloy GaMnAs GMR AMR Circular Microstructures Bilayer Exchange Coupling Thin Films
43	Multifunctional Droplet-based Micro-magnetofluidic Devices Lin, Gungun 23 August 2016 (has links) (PDF) Confronted with the global demographic changes and the increasing pressure on modern healthcare system, there has been a surge of developing new technology platforms in the past decades. Droplet microfluidics is a prominent example of such technology platforms, which offers an efficient format for massively parallelized screening of a large number of samples and holds great promise to boost the throughput and reduce the costs of modern biomedical activities. Despite recent achievements, the realization of a compact and generic screening system which is suited for resource-limited settings and point-of-care applications remains elusive. To address the above challenges, the dissertation focuses on the development of a compact multifunctional droplet micro-magnetofluidic system by exploring the advantages of magnetic in-flow detection principles. The methodologies behind a novel technique for biomedical applications, namely, magnetic in-flow cytometry have been put forth, which encompass magnetic indexing schemes, quantitative multiparametric analytics and magnetically-activated sorting. A magnetic indexing scheme is introduced and intrinsic to the magnetofluidic system. Two parameters characteristic of the magnetic signal when detecting magnetically functionalized objects, i.e. signal amplitude and peak width, providing information which is necessary to perform quantitative analysis in the spirit of optical cytometry has been proposed and realized. Magnetically-activated sorting is demonstrated to actively select individual droplets or to purify a population of droplets of interest. Together with the magnetic indexing scheme and multiparametric analytic technique, this functionality synergistically enables controlled synthesis, quality administration and screening of encoded magnetic microcarriers, which is crucial for the practical realization of magnetic suspension arrays technologies. Furthermore, to satisfy the needs of cost-efficient fabrication and high-volume delivery, an approach to fabricate magnetofluidic devices on flexible foils is demonstrated. The resultant device retains high performance of its rigid counterpart and exhibits excellent mechanical properties, which promises long-term stability in practical applications. Tröpfchen Mikrofluidik GMR Multilayern flexible Magnetfeldsensoren magnetische Durchflusszytometrie Ferrofluide Codes Codierung magnetische Sortierung droplet microfluidics GMR multilayers flexible magnetic field sensors magnetic flow cytometry ferrofluids codes encoding high-throughput screening multiparametric analysis magnetic sorting ddc:500 ddc:530 ddc:531 ddc:537 ddc:538 ddc:541 ddc:542 ddc:600 ddc:620 ddc:621 Mikrofluidik Durchflusszytometrie Magnetfeldsensor Magnetische Flüssigkeit Codierung
44	Kvantifikace nejistot měření magnetických veličin / Measurement of magnetic quantities - estimation of the uncertainty Šlichta, Pavol January 2016 (has links) This Master’s thesis contains an overview of determining measurement uncertainties of direct and indirect measurements. It describes a way of creating a magnetic field with the help of Helmholtz coil and a more detailed description of some principles of magnetic field sensors. This thesis also contains a description of the experiments and the factors influencing them. The last part deals with the quantification of uncertainties from measured experiments and with the discussion of the results from these measurements.
45	PCBA verification and fault detection using a low-frequency GMR-based near-field probe with magnetic closed-loop feedback compensation : A non-contact alternative to physical probing / Verifiering och feldetektering av kretskort mha en lågfrekvent närfältssond baserad på en GMR-sensor med magnetisk återkopplingskrets med sluten kompensationsslinga : Ett kontaktlöst alternativ till fysisk sondering Sundh, Joacim January 2022 (has links) As electronics are getting both smaller and more advanced, the need to verify and validate remains and the means are getting more complex the more functions and components are added. Traditionally, in-circuit tests (ICTs) are performed by probing dedicated test points on the Printed Circuit Board Assembly (PCBA) in a test sequence that is unique to each product. But as the density of components increases, the choice between component and test point must be considered. Instead of decreasing the reliability during verification by having to remove less system-critical test points, this thesis suggests the use of a near-field probe (NFP) based around a Giant Magneto-Resistance (GMR) sensor to possibly replace the need for a physical test point by instead performing contactless testing. The use of a GMR sensor allows for bandwidth from 0 Hz up to the MHz range, whereas commercial NFPs are based on a different technique and are operational from the MHz range and up. The goal of this project was to improve the non-linearity of typically 15% present in the AAH002-02 model from NVE by the use of an analogue closed-loop magnetic feedback circuit. The project successfully improved the linearity to 99.8% by the use of an instrumentation amplifier, a subtractor and a push-pull amplifier in conjunction with a 3x30 turn planar coil embedded in a PCB, located beneath the sensor Integrated Circuit (IC). The resulting linearity was verified by a Helmholtz coil where a uniform magnetic field was produced with linearly increased field strength, and calculated using the R2 value from a linear regression analysis on the acquired data. In the future, the data acquired from this kind of NFP could be used together with a Machine Learning (ML) model to remove the manual labour required when constructing these product-unique test sequences. / Dagens elektronik blir både mindre och mer avancerad, men behovet av verifiering och validering av dessa kvarstår och metoderna för detta ökar i komplexitet ju fler funktioner och komponenter som läggs till. Dagens kretskortstester genomförs genom att sondera dedikerade testpunkter strategiskt utplacerade på kretskortet enligt en testsekvens som är unikt skapad för varje produkt. Men med att densiteten av komponenter ökar måste valet mellan komponent och testpunkt tas i beaktning. Instället för att minska tillförlitligheten vid validering genom att ta bort mindre kritiska testpunkter föreslår denna avhandling användandet av en närfältssond baserad runt en Giant Magneto-Resistance (GMR)-sensor för att möjligen ersätta behovet av en fysisk testpunkt genom att istället genomföra kontaktlös testning. Användandet av en GMR-sensor tillåter en bandbredd från 0 Hz upp till MHzområdet, där kommersiella närfältssonder är baserade på annan teknik och är funktionsdugliga från MHz-området och uppåt. Målet med detta projekt var att förbättra olinjäriteten på typiskt 15% som är närvarande hos en sensor av modell AAH002-02 från NVE genom en analog magnetisk återkopplingskrets med sluten slinga. Projektet lyckades förbättra linjäriteten till 99.8% genom användandet av en intrumentförstärkare, en subtraherare och en push-pull-förstärkare i samverkan med en plan spole på 3x30 varv inbyggd i ett mönsterkort placerd under sensorns integrerade krets. Den resulterande linjäriteten validerades med hjälp av en Helmholtz-spole där ett uniformt magnetfält producerades med linjärt ökande fältstyrka och beräknades genom R2 -värdet från en linjär regression-analys på den inhämtade datan. I framtiden kan datan som inhämtats från den här sortens närfältssond kunna användas tillsammans med en maskininlärningsmodell för att ersätta det manuella arbetet som idag krävs för att konstruera dessa produktunika testsekvenser GMR sensor magnetic field near-field probe linearity PCB coil PCBA analogue integrated circuits analog operational amplifiers electrical fault detection feedback circuits in-circuit tests GMR sensor magnetfält närfält sond linjäritet mönsterkort spole kretskort analoga integrerade kretsar operationsförstärkare elektrisk feldetektering återkopplingskretsar kretskortstest Embedded Systems Inbäddad systemteknik
46	Elaboration et étude d'un système hybride "Oxyde ferrimagnétique / Métal non magnétique / Oxyde ferrimagnétique" GATEL, Christophe 22 November 2004 (has links) (PDF) Ce travail s'inscrit dans les recherches actives des nouvelles propriétés magnétiques et électriques dans les hétérostructures artificielles. Nous avons élaboré et étudié un système du type « Oxyde ferrimagnétique / Métal non magnétique / Oxyde ferrimagnétique » dans lequel les électrons sont confinés dans la couche métallique 2D et subissent de nombreuses réflexions aux interfaces « métal / isolant magnétique ». L'élaboration de ce système impose une maîtrise de la croissance des différentes couches et de la planéité des interfaces. Les dépôts sont épitaxiés afin de limiter les diffusions des électrons aux joints de grains par pulvérisation cathodique dans un bâti UHV, les caractérisations structurales sont essentiellement réalisées par microscopie électronique haute résolution et diffraction des rayons X.<br />Nous avons étudié la croissance épitaxiale de couches simples de Fe3O4 et de CoFe2O4 sur Al2O3(0001) et MgO(001) afin d'obtenir respectivement une direction de croissance [111] et [001]. Nous nous sommes également intéressés à la croissance épitaxiale et à l'anisotropie d'échange de bicouches Fe3O4(5nm à 50nm)/NiO(66nm) dans ces deux mêmes directions de croissance. Nous avons ensuite étudié la croissance de métaux non oxydables (Pt, Au et Ag) sur les surfaces (001) et (111) de Fe3O4.<br />Ces résultats ont permis d'élaborer les systèmes épitaxiés Fe3O4/M(M=Au,Pt)/ CoFe2O4 sur Al2O3(0001). Les propriétés électriques montrent que les électrons sont confinés dans la couche métallique et qu'apparaît une GMR atteignant près de 1,8% à 10K due exclusivement aux réflexions électroniques sur les interfaces métal/oxyde avec certainement une contribution des réflexions spéculaires. [PHYS:COND] Physics/Condensed Matter [PHYS:PHYS] Physics/Physics Croissance épitaxiale couche mince pulvérisation cathodique microscopie électronique diffraction X réflectivité X RHEED SQUID VSM Pt Au Ag NiO Fe3O4 CoFe2O4 magnétisme couplage d'échange transport GMR
47	Thermische Stabilität und Reaktion metallischer Multilagen / Thermal stability and reaction of metallic multilayers Ene, Constantin Buzau 19 December 2007 (has links) No description available. 530 Physik Mathematics and Computer Science metallische Multilagen Riesen-Magneto-Widerstand GMR Diffusion Mikrostruktur Laplace Spannung Atomsonde Tomographie TEM Focused Ion Beam metallic multilayers Giant Magneto-Resistance GMR diffusion microstructure Laplace tension Atom Probe Tomography TEM Focused Ion Beam 33.16 33.75 51.10 RVC 850: Transporteigenschaften
48	Shapeable microelectronics Karnaushenko, Daniil 04 July 2016 (has links) (PDF) This thesis addresses the development of materials, technologies and circuits applied for the fabrication of a new class of microelectronic devices that are relying on a three-dimensional shape variation namely shapeable microelectronics. Shapeable microelectronics has a far-reachable future in foreseeable applications that are dealing with arbitrarily shaped geometries, revolutionizing the field of neuronal implants and interfaces, mechanical prosthetics and regenerative medicine in general. Shapeable microelectronics can deterministically interface and stimulate delicate biological tissue mechanically or electrically. Applied in flexible and printable devices shapeable microelectronics can provide novel functionalities with unmatched mechanical and electrical performance. For the purpose of shapeable microelectronics, novel materials based on metallic multilayers, photopatternable organic and metal-organic polymers were synthesized. Achieved polymeric platform, being mechanically adaptable, provides possibility of a gentle automatic attachment and subsequent release of active micro-scale devices. Equipped with integrated electronic the platform provides an interface to the neural tissue, confining neural fibers and, if necessary, guiding the regeneration of the tissue with a minimal impact. The self-assembly capability of the platform enables the high yield manufacture of three-dimensionally shaped devices that are relying on geometry/stress dependent physical effects that are evolving in magnetic materials including magentostriction and shape anisotropy. Developed arrays of giant magnetoimpedance sensors and cuff implants provide a possibility to address physiological processes locally or distantly via magnetic and electric fields that are generated deep inside the organism, providing unique real time health monitoring capabilities. Fabricated on a large scale shapeable magnetosensory systems and nanostructured materials demonstrate outstanding mechanical and electrical performance. The novel, shapeable form of electronics can revolutionize the field of mechanical prosthetics, wearable devices, medical aids and commercial devices by adding novel sensory functionalities, increasing their capabilities, reducing size and power consumption. flexibel biomimetisch bedruckbar Mikroelektronik Verformungstechnologie Selbstorganisation Stimuli reagierende Polymere mechanisch aktive polymere Plattform Manschette Implantate regenerative neuronale Implantate flexible Magnetfeldsensoren GMR Multilayern IGZO-Transistoren flexible Verstärker bedruckbare magnetische Sensorik flexible biomimetic printable microelectronics strain engineering self-assembly stimuli responsive polymers mechanically active polymeric platform cuff implants regenerative neuronal implants flexible magnetic field sensors GMR multilayers magnetoimpedance IGZO transistors flexible amplifier printable magnetic sensorics ddc:500 ddc:530 ddc:531 ddc:537 ddc:538 ddc:541 ddc:547 ddc:600 ddc:629 Selbstorganisation Mikroelektronik Magnetfeldsensor Bedruckbarkeit
49	Automatic Speech Quality Assessment in Unified Communication : A Case Study / Automatisk utvärdering av samtalskvalitet inom integrerad kommunikation : en fallstudie Larsson Alm, Kevin January 2019 (has links) Speech as a medium for communication has always been important in its ability to convey our ideas, personality and emotions. It is therefore not strange that Quality of Experience (QoE) becomes central to any business relying on voice communication. Using Unified Communication (UC) systems, users can communicate with each other in several ways using many different devices, making QoE an important aspect for such systems. For this thesis, automatic methods for assessing speech quality of the voice calls in Briteback’s UC application is studied, including a comparison of the researched methods. Three methods all using a Gaussian Mixture Model (GMM) as a regressor, paired with extraction of Human Factor Cepstral Coefficients (HFCC), Gammatone Frequency Cepstral Coefficients (GFCC) and Modified Mel Frequency Cepstrum Coefficients (MMFCC) features respectively is studied. The method based on HFCC feature extraction shows better performance in general compared to the two other methods, but all methods show comparatively low performance compared to literature. This most likely stems from implementation errors, showing the difference between theory and practice in the literature, together with the lack of reference implementations. Further work with practical aspects in mind, such as reference implementations or verification tools can make the field more popular and increase its use in the real world. speech voice communication qoe quality of experience unified communication uc speech quality assessment speech quality voice calls gaussian mixture model gmm gaussian mixture regression gmr mel frequency cepstrum coefficients mfcc human feature cepstrum coefficients hfcc gfcc Software Engineering Programvaruteknik
50	Využití uměle vytvořeného slabého magnetického pole pro navigaci ve 3D prostoru / Utilization of artificially created weak magnetic field for navigation in 3D space Váňa, Dominik January 2020 (has links) This master's thesis focuses on the utilization of an artificially created weak magnetic field for navigation in 3D space. The theoretical part of this work deals with the general properties of the magnetic field and with its description. The next section of the theoretical part contains an overview of measuring principles for magnetic field measurements. Based on various types of measuring principles, the thesis elaborates on commercially available miniature sensors for magnetic field measurement with a measuring range up to 10 mT. The work focuses mainly on the magnetoresistive principle and fluxgate sensors. Furthermore, the theoretical part contains descriptions of methods for modeling the magnetic field of simple permanent magnets and various magnet assemblies. Lastly, the theoretical part involves a patent search of devices used for locating magnets that are installed in an intramedullary nail, which is used in intramedullary stabilization used on fractures of human bones. By locating the magnet in the nail, it is possible to precisely determine the position of the mounting holes. The practical part of the thesis deals with the analysis of magnetic field behavior in the vicinity of various magnetic assemblies, which were modeled in COMSOL Multiphysics using the finite element method. The models were created with the aim of analysing the behaviour of the magnetic field in the vicinity of the magnets and at the same time to find possible analytical functions that could be used to determine the position of the magnet in space relative to the probe. The result of this work is an analysis of various assemblies, which contains graphs of different dependencies and prescription of polynomial functions that approximate these dependencies. Another part of the thesis is the design of a probe that serves to locate the magnetic target. The work describes two possible methods of localization. For the differential method, a user interface in LabVIEW was created. The probe based on this method is fully capable of locating the magnet in the 2D plane. The state space search method is described only in theory.

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