151 |
EFFECT OF URBAN RIPARIAN DEVELOPMENT ON BIODIVERSITY; USING BIRDS AND VEGETATION AS ECOLOGICAL INDICATORS IN COOPER CREEK LOCATED IN SOUTHWEST OHIOASANTE, MELDOMI ASABEA 27 April 2006 (has links)
No description available.
|
152 |
Fluctuations hors équilibre dans l'effet Hall quantique et dans les circuits hybridesChevallier, Denis 30 September 2011 (has links)
Un conducteur est bien caractérisé par sa conductance donnée par la formule de Landauer. Toutefois, le bruit contient davantage d'informations. Il mesure les fluctuations temporelles du courant autour de sa valeur moyenne. De plus, le signe des corrélations croisées est lié à la statistique des porteurs de charge. Cette thèse aborde deux principaux thèmes à savoir le transport dans les liquides de Luttinger et dans les structures hybrides. Dans la première partie, nous commençons par donner une vision détaillée des liquides de Luttinger et des systèmes qu'ils modélisent. Nous parlons également du formalisme de Keldysh permettant de traiter des problèmes hors équilibre. Puis, nous rentrons dans le vif du sujet en étudiant l'effet de la largeur d'un contact ponctuel quantique sur le courant de rétrodiffusion entre les deux états de bords de l'effet Hall quantique. L'augmentation de la largeur du contact ponctuel quantique entraîne une forte diminution du courant de rétrodiffusion. Dans un autre chapitre, nous développons une technique permettant l'utilisation d'un circuit RLC couplé inductivement au circuit mésoscopique pour détecter les corrélations de courant en régime photo-assisté. La mesure de ces corrélations s'effectue à travers la charge aux bornes du condensateur. Dans une deuxième partie, nous consacrons notre étude au transport non-local dans les structures hybrides supraconductrices. L'étude de la réflexion d'Andreev croisée y est détaillée. Finalement, nous étudions une structure en double point quantique reliée à deux électrodes en métal normal et une supraconductrice. Nous mettons en avant la séparation des paires de Cooper en mesurant simultanément les courants de branchement et les corrélations croisées. Nous démontrons que dans le régime antisymétrique, c'est-à-dire lorsque les deux points quantiques ont des niveaux d'énergie opposés par rapport au potentiel chimique du supraconducteur, la réflexion d'Andreev croisée est optimisée. / The conductance is the most natural quantity to characterize a quantum conductor. It is given by the Landauer Formula. However, noise contains more information. It measures the current fluctuations around its average value. Moreover, the sign of the crossed correlations is related to the statistics of carriers. This thesis broaches two main topics which are the transport in the quantum Hall effect and in hybrid circuits.First, we start by introducing the Luttinger liquid and the systems which are modelized by them. Also, we discuss the Keldysh formalism in order to treat nonequilibrium problems. Then, we study the effect of the width of a quantum point contact on the backscattering current between two edge states of the quantum Hall effect. By increasing the width of the quantum point contact, we show that the backscattering current is strongly reduced. In another chapter, we develop a technique to use a RLC circuit inductively coupled to a mesoscopic circuit in order to measure the current correlations in the photo-assisted regime. The measurement of these correlations is performed through the charge on the capacitor plates.Secondly, we present the non-local transport in hybrid structures. The mechanism of Crossed Andreev Reflection is explained. Finally, we study a double quantum dot connected to two normal leads and a superconducting lead. We introduce the separation of the Cooper pair by measuring together the branching currents and the crossed correlations. We demonstrate that in the anti-symmetric regime (the energy level of the two quantum dots have opposite values with respect to the chemical potential of the superconducting lead), crossed Andreev reflection is optimized.
|
153 |
Comportamento eletroquímico das interfases cobre-H2SO4 na ausência e presença de triazóis, surfactantes e misturas composto triazólico-surfactante / The electrochemical behavior of Cooper-H2SO4 interphases in the absence and in the presence of triazolic compounds, surfactants and triazole compounds-surfactants mixturesSilva, Douglas Kais da 18 August 2006 (has links)
Foi estudado o comportamento eletroquímico de interfases Cu/H2SO4 0,5 mol L-1 na ausência e presença de compostos triazólicos - benzotriazol (BTAH) e tolitriazol (TTAH) e de surfactantes: dodecilsulfato de sódio (SDS aniônico) e cloreto de dodecilamônio (DAC catiônico) a 25ºC, empregando eletrodo parado e de disco rotativo (EDR). Foram empregadas como técnicas medidas de potencial de circuito aberto, polarização potenciostática e potenciodinâmica, cronoamperometria, espectroscopia de impedância eletroquímica e microscopia óptica. As características inibidoras do filme formado dependem da natureza dos aditivos e das condições hidrodinâmicas. As interfases contendo BTAH, TTAH, BTAH + TTAH, BTAH + SDS e TTAH + SDS apresentaram uma faixa ampla de potencial em que o cobre se mostrou passivado, chegando a 200 mV para a mistura BTAH + SDS empregando EDR. Densidades de corrente de passivação tão baixas quanto 2µA cm-2 foram observadas com EDR na presença de BTAH + TTAH. As misturas composto triazólico - surfactante mostraram filmes menos resistentes. Os surfactantes isolados não produzem faixa passiva e antecipam o potencial de oxidação do cobre com eletrodo parado. As misturas triazol - DAC só produzem faixa passiva com EDR. Todos os aditivos se mostraram inibidores para a reação H+/H2, destacando-se, com eletrodo parado, BTAH, TTAH e BTAH + TTAH. / The electrochemical behavior of 0.5 mol.L-1 Cu/H2SO4 interphases has been studied in the presence and in the absence of triazolic compounds-benzotriazole (BTAH) and tolitriazole (TTAH) and of surfactants - sodium dodecylsulphate (anionic, SDS) and dodecylammonium chloride (cationic, DAC) at 25ºC, using non-stirred electrode and rotating disc electrode (RDE). Open circuit potential, potentiostatic and potenctiodinamic polarization, chronoamperometry, electrochemical impedance spectroscopy, and optical microscopy were used as techniques. The inhibitive features of the formed film depend on both the nature of the additives and on the hydrodynamic conditions. The interphases containing BTAH, TTAH, BTAH + TTAH, BTAH + SDS e TTAH + SDS presented a wide potential range where the copper is passivated, reaching to 200 mV for BTAH + SDS mixture using RDE. Low passivating current densities (2µA cm-2) were observed with RDE in the presence of BTAH + TTAH. Triazolic compound?surfactant mixtures have originated less resistant films. Isolated surfactants do not originate passive ranges and anticipate the oxidation potential of copper under non stationary conditions. The mixtures triazole-DAC only produce passive range at stationary conditions. All the additives have shown to be inhibitors for the H+/H2 reaction, specially BTAH, TTAH e BTAH + TTAH using non stirred conditions.
|
154 |
A study of the Patchawarra Formation, Tirrawarra Field, Southern Cooper Basin, South AustraliaKennedy, Sean. January 1988 (has links) (PDF)
Typescript (Photocopy) Three maps, folded, in back cover pocket. Includes bibliography: leaves [22-24]
|
155 |
Microwaves as a probe of quantum dot circuits : from Kondo dynamics to mesoscopic quantum electrodynamics / Les micro-ondes comme sonde des circuits de boîtes quantiques : de la dynamique Kondo à l’électrodynamique quantique mésoscopiqueBruhat, Laure 01 April 2016 (has links)
Cette thèse utilise les micro-ondes pour étudier des circuits de boîtes quantiques à base de nanotubes de carbone. Dans une première expérience, l'excitation micro-onde est appliquée directement sur une électrode du circuit pour une boîte quantique dans le régime Kondo. Nous réalisons la première caractérisation fréquence-amplitude de la conductance Kondo à biais nul. Des données préliminaires sont en accord avec la prédiction d'universalité. Nous présentons deux autres expériences, où les boîtes quantiques sont insérées dans des résonateurs micro-ondes. Les photons de la cavité sondent la résistance de relaxation de charge et l'émission de photons dans une boîte quantique couplée à des réservoirs normaux et supraconducteurs, en présence de répulsion coulombienne. Nos observations valident une modélisation en termes de réponse linéaire du circuit. Nous présentons aussi la première implémentation d'une lame séparatrice à paires de Cooper en cavité. Le régime de couplage fort est atteint, une première avec des circuits de boîtes quantiques. Nos résultats renforcent l'idée que l'électrodynamique quantique mésoscopique est une boîte à outils fructueuse, aussi bien dans le contexte du domaine du transport quantique que dans celui de l'information quantique. / This thesis uses microwaves as probe of carbon nanotube quantum dot circuits. In a first experiment, a microwave excitation is directly applied to a circuit electrode for a quantum dot in the Kondo regime. We provide the first frequency-amplitude characterisation of the Kondo zero-bias conductance. Preliminary data are consistent with predicted universal behaviour. We present two other experiments, where quantum dot circuits are embedded in microwave resonators. Cavity photons probe charge relaxation resistance and photon-emission in a quantum dot coupled to normal and superconducting reservoirs in presence of Coulomb repulsion. Our observations validate a modelling in terms of the circuit linear response. We also present the first implementation of a Cooper pair splitter in cavity. The strong coupling regime is achieved, a premiere with quantum dot circuits. Our findings support the idea, that mesoscopic quantum electrodynamics is a fruitful toolbox in the context of both fields of quantum transport and quantum information science.
|
156 |
Cohérence, brouillage et dynamique de phase dans un condensat de paires de fermions / Coherence, blurring and phase dynamics in a pair-condensed Fermi gasKurkjian, Hadrien 19 May 2016 (has links)
On considère généralement que la fonction d’onde macroscopique décrivant un condensat de paires de fermions possède une phase parfaitement définie et immuable. En réalité, il n’existe que des systèmes de taille finie, préparés à température non nulle ; le condensat possède alors un temps de cohérence fini, même lorsque le système est isolé. Cet effet fondamental, crucial pour les applications qui exploitent la cohérence macroscopique, restait très peu étudié.Dans cette thèse, nous relions le temps de cohérence à la dynamique de phase du condensat, et nous montrons par une approche microscopique que la dérivée temporelle de l’opérateur phase ˆθ0 est proportionnelle à un opérateur potentiel chimique qui inclut les deux branches d’excitations du gaz : celle, fermionique, de brisure des paires et celle, bosonique, de mise en mouvement de leur centre de masse. Pour une réalisation donnée de l’énergie E et du nombre de particules N, la phase évolue aux temps longs comme −2μmc(E,N)t/~ où μmc(E,N) est le potentiel chimique microcanonique ; les fluctuations de E et de N d’une réalisation à l’autre conduisent alors à un brouillage balistique de la phase, et à une décroissance gaussienne de la fonction de cohérence temporelle avec un temps caractéristique ∝ N1/2. En l’absence de telles fluctuations, la décroissance est au contraire exponentielle avec un temps de cohérence qui diverge linéairement en N à cause du mouvement diffusif de ˆθ0 dans l’environnement des modes excités. Nous donnons une expression explicite de ce temps caractéristique à bassetempérature dans le cas d’une branche d’excitation bosonique convexe lorsque les phonons interagissent via les processus 2 ↔ 1 de Beliaev-Landau. Enfin, nous proposons des méthodes permettant de mesurer avec un gaz d’atomes froids chaque contribution au temps de cohérence / It is generally assumed that a condensate of paired fermions at equilibrium is characterized by a macroscopic wavefunction with a well-defined, immutable phase. In reality, all systems have a finite size and are prepared at non-zero temperature ; the condensate has then a finite coherence time, even when the system is isolated. This fundamental effect, crucial for applicationsusing macroscopic coherence, was scarcely studied. Here, we link the coherence time to the condensate phase dynamics, and show using a microscopic theory that the time derivative of the condensate phase operator ˆθ0 is proportional to a chemical potential operator which includes both the fermionic pair-breaking and the bosonic pair-motion excitation branches.For a given realization of the number of particle N and of the energy E, the phase evolves at long times as −2μmc(E,N)t/~ where μmc(E,N) is the microcanonical chemical potential ; fluctuations of N and E from one realization to the other then lead to a ballistic spreading of the phase and to a Gaussian decay of the temporal coherence function with a characteristictime ∝ N1/2. On the contrary, in the absence of energy and number fluctuations, the decay of the temporal coherence function is exponential with a characteristic time scaling as N due to the diffusive motion of ˆθ0 in the environnement created by the excited modes. We give an explict expression of this characteristic time at low temperature in the case where the bosonicbranch is convex and the phonons undergo 2 ↔ 1 Beliaev-Landau process. Finally, we propose methods to measure each contribution to the coherence time using ultracold atoms.
|
157 |
Shaping the spectrum of carbon nanotube quantum dots with superconductivity and ferromagnetism for mesoscopic quantum electrodynamics / Façonnage du spectre de boîtes quantiques à base de nanotubes de carbones avec la supraconductivité et le ferromagnétisme pour l'électrodynamique quantique mésoscopiqueCubaynes, Tino 07 December 2018 (has links)
Dans cette thèse, nous étudions des circuits de boîtes quantiques à base de nanotubes de carbone intégrés dans une cavité micro-onde. Cette architecture générale permet de sonder le circuit en utilisant simultanément des mesures de transport et des techniques propre au domaine de l’Electrodynamique quantique sur circuit. Les deux expériences réalisées durant cette thèse exploitent la capacité des métaux de contact à induire des corrélations de spins dans les boites quantiques. La première expérience est l’étude d’une lame s´séparatrice à paires de Cooper, initialement imaginée comme une source d’électrons intriqués. Le couplage du circuit aux photons dans la cavité permet de sonder la dynamique interne du circuit, et a permis d’observer des transitions de charge habillées par le processus de séparation des paires de Cooper. Le couplage fort entre une transition de charge dans un circuit de boîtes quantiques et des photons en cavité, a été observée pour la première fois dans ce circuit. Une nouvelle technique de fabrication a aussi été développé pour intégrer un nanotube de carbone cristallin au sein du circuit de boîtes quantiques. La pureté et l’accordabilité de cette nouvelle génération de circuit a rendu possible la seconde expérience. Cette dernière utilise deux vannes de spins non colinéaire afin de produire une interface cohérente entre le spin d’un électron dans une double boite quantique, et un photon dans une cavité. Des transitions de spins très cohérentes ont été observée, et nous donnons un modèle sur l’origine de la décohérence du spin comprenant le bruit en charge et les fluctuations des spins nucléaires. / In this thesis, we study carbon nanotubes based quantum dot circuits embedded in a microwave cavity. This general architecture allows one to simultaneously probe the circuit via quantum transport measurements and using circuit quantum electrodynamics techniques. The two experiments realized in this thesis use metallic contacts of the circuit as a resource to engineer a spin sensitive spectrum in the quantum dots. The first one is a Cooper pair splitter which was originally proposed as a source of non local entangled electrons. By using cavity photons as a probe of the circuit internal dynamics, we observed a charge transition dressed by coherent Cooper pair splitting. Strong charge-photon coupling in a quantum dot circuit was demonstrated for the first time in such a circuit. A new fabrication technique has also been developed to integrate pristine carbon nanotubes inside quantum dot circuits. The purity and tunability of this new generation of devices has made possible the realization of the second experiment. In the latter, we uses two non-collinear spin-valves to create a coherent interface between an electronic spin in a double quantum dot and a photon in a cavity. Highly coherent spin transitions have been observed. We provide a model for the decoherence based on charge noise and nuclear spin fluctuations.
|
158 |
The Importance of Prior Geologic Information on Hydraulic Tomography Analysis at the North Campus Research Site (NCRS)Tang, Han, Tang, Han January 2016 (has links)
The purpose of this study is to investigate the importance of prior information about hydraulic conductivity (K) by Kriging, using point K data and/or residual covariance, on improvements of K estimates at the North Campus Research Site (NCRS). Among many methods that can characterize the mean or detail distribution of hydraulic conductivity (K), the Cooper-Jacob straight line solution, Kriging using point K data, single-well pumping tests inversion and Hydraulic Tomography (HT) have been compared in this study, using the head data collected from 15 cross-hole pumping tests collected at NCRS, where 9 existing wells were installed with packer system and the pressure responses at different intervals in different wells were monitored with transducers. It is found that the HT method, which fuse all the available pumping test data, yields more accurate and consistent results. However, many studies have indicated that the hydraulic data combined with geologic investigation will improve the HT estimates. Thus, in this study, hard data of K obtained by permeameter (227 data points) are brought in using Kriging and combined with HT to yield better estimate K field. Moreover, the validations of unused tests indicate that the estimated K obtained using collected K information makes more accurate predictions.
|
159 |
Estudo sobre os efeitos do cobre e zinco no crescimento da plântula de \"Aechmea blanchetiana\" (BAKER) L. B. Smith cultivada \"in vitro\". Aplicação da análise por ativação com nêutrons / A study on copper and zinc effects in the growth of Aechmea blanchetiana (Baker) LB Smith seedlings cultivated in vitro. Application of neutron activation analysisZampieri, Maria Cristina Tessari 30 November 2010 (has links)
Os metais são componentes da biosfera, ocorrendo naturalmente no solo e nas plantas, contudo como consequência de ações antrópicas, os seus níveis vêm se aumentado muito, dependendo da região. O cobre (Cu) e zinco (Zn) são elementos essenciais para o crescimento e desenvolvimento das plantas, mas em excesso são tóxicos. O objetivo deste trabalho foi avaliar o potencial das plantas em absorver os metais Cu e Zn e os efeitos que estes ocasionam nas plântulas cultivadas in vitro. Os resultados deste estudo poderão contribuir principalmente em pesquisas agrícolas e nas da área do meio ambiente. A planta investigada neste trabalho foi a Aechmea blanchetiana, pertence à família Bromeliaceae, e que pode ser terrestre ou epífita e é amplamente utilizada como planta ornamental. Na parte experimental, o cultivo das plântulas e a exposição das plântulas em diferentes concentrações de Cu ou Zn, foram realizados no Instituto de Botânica (IBt) de São Paulo. Após a germinação das sementes as plântulas foram transferidas para crescimento e expostas em meios de cultivo contendo diferentes concentrações de Cu ou de Zn. Após este período de cultivo in vitro, as plântulas foram analisadas por meio da morfometria, anatomia e análise por ativação com nêutrons. O controle de qualidade dos resultados da análise por ativação avaliado por meio das análises dos materiais de referência certificados mostrou boa precisão e exatidão dos dados para os diversos elementos determinados. As concentrações mais altas de Cu utilizadas na exposição da espécie foram as que causaram maiores variações estruturais nos parâmetros morfométricos e anatômicos, no entanto para o Zn não houve diferenças significativas para a maioria dos parâmetros analisados. A A. blanchetiana mostrou ser uma espécie bioacumuladora de Zn, apresentando altos valores de absorção deste elemento nas suas partes aéreas e radiculares. / Metals are components of the biosphere, occurring naturally in soil and plants, but as a result of human actions, their levels have been greatly increased, depending on the region. Copper (Cu) and zinc (Zn) are essential for the growth and development of plants, however if in excess become toxic. The aim of this study was to evaluate the potential of plants to absorb Cu and Zn and what effects they cause in seedlings cultivated in vitro. The results of this study may contribute primarily in agricultural and environmental research. The plant investigated was the Aechmea blanchetiana species of the Bromeliaceae family. It is a terrestrial or epiphytic species used as an ornamental plant. The cultivation of seedlings for this study and their exposure to different concentrations of Cu and Zn were performed at the Institute of Botany (IBt) of São Paulo. After seed germination, the seedlings were transferred for growth in a culture media containing different concentrations of Cu or Zn. After this period of in vitro cultivation, the seedlings were analyzed for morphometry, anatomy and by neutron activation analysis. Quality control of the results from neutron activation analysis was carried out by the analysis of certified reference materials. The data obtained showed good precision and accuracy for several elements determined. The highest concentrations of Cu used in the exposure were those that caused major structural changes in morphometric and anatomical parameters, however for the Zn no significant differences were verified for most parameters. The A. blanchetiana proved to be a bioaccumulator species of Zn, absorbing high levels of this element in the aerial parts and roots.
|
160 |
Estudo sobre os efeitos do cobre e zinco no crescimento da plântula de \"Aechmea blanchetiana\" (BAKER) L. B. Smith cultivada \"in vitro\". Aplicação da análise por ativação com nêutrons / A study on copper and zinc effects in the growth of Aechmea blanchetiana (Baker) LB Smith seedlings cultivated in vitro. Application of neutron activation analysisMaria Cristina Tessari Zampieri 30 November 2010 (has links)
Os metais são componentes da biosfera, ocorrendo naturalmente no solo e nas plantas, contudo como consequência de ações antrópicas, os seus níveis vêm se aumentado muito, dependendo da região. O cobre (Cu) e zinco (Zn) são elementos essenciais para o crescimento e desenvolvimento das plantas, mas em excesso são tóxicos. O objetivo deste trabalho foi avaliar o potencial das plantas em absorver os metais Cu e Zn e os efeitos que estes ocasionam nas plântulas cultivadas in vitro. Os resultados deste estudo poderão contribuir principalmente em pesquisas agrícolas e nas da área do meio ambiente. A planta investigada neste trabalho foi a Aechmea blanchetiana, pertence à família Bromeliaceae, e que pode ser terrestre ou epífita e é amplamente utilizada como planta ornamental. Na parte experimental, o cultivo das plântulas e a exposição das plântulas em diferentes concentrações de Cu ou Zn, foram realizados no Instituto de Botânica (IBt) de São Paulo. Após a germinação das sementes as plântulas foram transferidas para crescimento e expostas em meios de cultivo contendo diferentes concentrações de Cu ou de Zn. Após este período de cultivo in vitro, as plântulas foram analisadas por meio da morfometria, anatomia e análise por ativação com nêutrons. O controle de qualidade dos resultados da análise por ativação avaliado por meio das análises dos materiais de referência certificados mostrou boa precisão e exatidão dos dados para os diversos elementos determinados. As concentrações mais altas de Cu utilizadas na exposição da espécie foram as que causaram maiores variações estruturais nos parâmetros morfométricos e anatômicos, no entanto para o Zn não houve diferenças significativas para a maioria dos parâmetros analisados. A A. blanchetiana mostrou ser uma espécie bioacumuladora de Zn, apresentando altos valores de absorção deste elemento nas suas partes aéreas e radiculares. / Metals are components of the biosphere, occurring naturally in soil and plants, but as a result of human actions, their levels have been greatly increased, depending on the region. Copper (Cu) and zinc (Zn) are essential for the growth and development of plants, however if in excess become toxic. The aim of this study was to evaluate the potential of plants to absorb Cu and Zn and what effects they cause in seedlings cultivated in vitro. The results of this study may contribute primarily in agricultural and environmental research. The plant investigated was the Aechmea blanchetiana species of the Bromeliaceae family. It is a terrestrial or epiphytic species used as an ornamental plant. The cultivation of seedlings for this study and their exposure to different concentrations of Cu and Zn were performed at the Institute of Botany (IBt) of São Paulo. After seed germination, the seedlings were transferred for growth in a culture media containing different concentrations of Cu or Zn. After this period of in vitro cultivation, the seedlings were analyzed for morphometry, anatomy and by neutron activation analysis. Quality control of the results from neutron activation analysis was carried out by the analysis of certified reference materials. The data obtained showed good precision and accuracy for several elements determined. The highest concentrations of Cu used in the exposure were those that caused major structural changes in morphometric and anatomical parameters, however for the Zn no significant differences were verified for most parameters. The A. blanchetiana proved to be a bioaccumulator species of Zn, absorbing high levels of this element in the aerial parts and roots.
|
Page generated in 0.0266 seconds