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Controversial Politics, Conservative Genre: Rex Stout's Archie-Wolfe Duo and Detective Fiction's Conventional FormCannon, Ammie 15 June 2006 (has links) (PDF)
Rex Stout maintained his popular readership despite the often controversial and radical political content expressed in his detective fiction. His political ideals often made him many enemies. Stances such as his ardent opposition to censorship, racism, Nazism, Germany, Fascism, Communism, McCarthyism, and the unfettered FBI were potentially offensive to colleagues and readers from various political backgrounds. Yet Stout attempted to present radical messages via the content of his detective fiction with subtlety. As a literary traditionalist, he resisted using his fiction as a platform for an often extreme political agenda. Where political messages are apparent in his work, Stout employs various techniques to mute potentially offensive messages. First, his hugely successful bantering Archie Goodwin-Nero Wolfe detective duo—a combination of both the lippy American and the tidy, sanitary British detective schools—fosters exploration, contradiction, and conflict between political viewpoints. Archie often rejects or criticizes Wolfe's extreme political viewpoints. Second, Stout utilizes the contradictions between values that occur when the form of detective fiction counters his radical political messages. This suggests that the form of detective fiction (in this case the conventional patterns and attitudes reinforced by the genre) is as important as the content (in this case the muted political message or the lack of overt politics) in reinforcing or shaping political, economic, moral, and social viewpoints. An analysis of the novels The Black Mountain (1954) and The Doorbell Rang (1965) and the novellas "Not Quite Dead Enough" and "Booby Trap" (1944) from Stout's Nero Wolfe series demonstrates his use of detective fiction for both the expression of political viewpoints and the muting of those political messages.
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Collective radiative effects in nanofiber-coupled atomic ensembles / From timed Dicke states to full inversionLiedl, Christian 04 July 2023 (has links)
In dieser Arbeit untersuchen wir kollektive Strahlungseffekte in Nanofaser-gekoppelten atomaren Ensembles, die sich über Tausende von optischen Wellenlängen erstrecken.
Wir koppeln bis zu 1000 Atome optisch an die geführten Moden einer optischen Nanofaser, die langreichweitige Dipol-Dipol Wechselwirkungen zwischen den Atomen vermittelt. Wir realisieren eine unidirektionale Kopplung und damit ein kaskadiertes Quantensystem, in dem die Dynamik jedes Atoms ausschließlich durch die Dynamik der vorgelagerten Atome bestimmt wird.
Wir regen die Atome mit nanofasergeführten optischen Pulsen kohärent an, was uns ermöglicht, den gesamten Parameterbereich von schwacher Anregung bis hin zur voll-ständigen Inversion zu erforschen. Wir stellen fest, dass die kohärente Vorwärtsstreuung, die für die Superradianz im Regime der schwachen Anregung verantwortlich ist, auch nahe voller Inversion eine wichtige Rolle für die Dynamik spielt. Wir beobachten superradiante Puls-Dynamik, die in unserem System trotz des makroskopischen Abstands zwischen den Atomen und einer asymmetrischen Kopplung auftritt. Wir stellen fest, dass die emittierte Spitzenleistung noch schneller mit der Anzahl der Atome skaliert als im Fall der idealen Dicke Superradianz, was auf eine kollektiv erhöhte Sammeleffizienz der nanofasergeführten Mode zurückzuführen ist. Die Analyse der Kohärenz-Eigenschaften des superradianten Pulses erlaubt es uns, zwei Regime der Puls-Dynamik zu identifizieren. Wir entwickeln ein kaskadiertes Wechselwirkungsmodell und zeigen, dass es die kollektive Dynamik unseres Systems über den gesamten in dieser Arbeit untersuchten Parameterbereich akkurat beschreibt.
Schließlich untersuchen wir die getriebene Dynamik eines Nanofaser-gekoppelten Ensembles von Drei-Niveau-Atomen. Wir treiben Zwei-Photonen-Rabi-Oszillationen zwischen den beiden Grundzuständen eines $\Lambda$-Systems und beobachten die damit verbundene oszillatorische Raman-Verstärkung und -Absorption. / In this thesis, we study collective radiative effects in nanofiber-coupled atomic ensembles that extend over thousands of optical wavelengths.
We optically couple up to 1000 atoms to the guided modes of an optical nanofiber, which mediates long-range dipole-dipole interactions between the atoms. We engineer the coupling to be unidirectional, realizing a cascaded quantum system in which the dynamics of each atom is solely determined by the dynamics of upstream atoms.
We coherently excite the atoms using nanofiber-guided optical pulses, allowing us to explore the entire parameter regime from weak excitation to full inversion. We find that coherent forward scattering, which is responsible for superradiance in the weak excitation regime, plays an important role for the dynamics even close to full inversion. We observe superradiant burst dynamics, which occurs in our system despite the macroscopic separation between the atoms and an asymmetric coupling. We find that the peak-emitted power scales even faster with the number of atoms than in the case of ideal Dicke superradiance due to a collectively enhanced channeling efficiency into the nanofiber-guided mode. By analyzing the coherence properties of the superradiant burst, we directly identify two regimes of burst dynamics. In the second regime, there is no initial coherence, and the superradiant burst is seeded by vacuum fluctuations. We introduce a cascaded interaction model and find that it accurately describes the collective dynamics of our system over the entire parameter regime explored in this thesis.
Finally, we study the driven dynamics of a nanofiber-coupled ensemble of three-level atoms. We drive two-photon Rabi oscillations between the two ground states of a $\Lambda$ system and observe the associated oscillatory Raman gain and absorption.
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Le compagnonnage végétal en tant que solution de lutte intégrée contre Pieris rapae, insecte ravageur des cultures de Brassica rapaSt-Fleur, Laurie 03 1900 (has links)
Les cultures de Brassicacées sont très courantes en agriculture urbaine à Montréal. Elles comportent cependant leur lot de problèmes liés aux insectes ravageurs, tels que la piéride du chou, Pieris rapae. L’utilisation de méthodes de lutte classique contre les insectes ravageurs, tels les insecticides, engendrent de sérieux dommages environnementaux, incluant la contamination de l’eau et du sol ainsi que la toxicité pour les plantes environnantes, les insectes auxiliaires et les microorganismes du sol. Le compagnonnage végétal, une pratique agroécologique alternative, est connue en tant que stratégie d’IPM (lutte intégrée contre les insectes ravageurs). L'objectif général de l'étude était d'évaluer in situ l'importance de diverses méthodes de compagnonnage sur l'infestation de P. rapae au sein du chou chinois, Brassica rapa. Les plantes utilisées dans les systèmes de compagnonnage étaient des cultures-pièges (Eruca sativa et Brassica carinata), des plantes compagnes principales qui étaient des plantes insectaires et répulsives pour les insectes ravageurs (Tagetes erecta, Amaranthus cruentus et Ocimum grattissimum) ainsi que des plantes compagnes secondaires (Solanum aethiopicum, Ocimum basilicum et Hibiscus sabdariffa). Les paramètres de physiologie végétale ainsi que les structures des communautés microbiennes et d’insectes ont été suivis de près tout au long de la saison croissance où l’expérience a eu lieu. La taille des larves était significativement plus importante au sein de la monoculture (contrôle) et les taux de concentration de glucosinolates dans les feuilles de Brassica rapa étaient deux fois plus élevés dans les contrôles comparativement aux systèmes de cultures plus diversifiés. Une PERMANOVA a confirmé une différence significative entre les méthodes de cultures concernant la composition des communautés d’insectes bénéfiques. Les communautés bactériennes du sol ont été améliorées par l'agriculture durable par rapport au sol d'origine et ont été bonifiées dans les systèmes de compagnonnage végétal (plus diversifiés). L'étude a mis en évidence les avantages de l'agroécologie, y compris le compagnonnage végétal, en termes de lutte intégrée contre les insectes ravageurs et d'autres composantes de l'agroécosystème. / Brassica crops are very common culture for urban farmers in Montreal where insect pests like the cabbage whitefly, Pieris rapae, are a real concern. The use of conventional insect pest control methods, such as insecticides, causes serious damages to a highly anthropized and therefore already constrained environment. These include air, water and soil contamination, as well as toxicity to surrounding beneficial insects, soil microorganisms, plants and the entire food chain. Companion planting, an agroecological practice, is an alternative strategy for insect pest management. The general objective of the study was to evaluate in situ the relevance of various traditional methods of companion planting on infestation of Chinese cabbage, Brassica rapa, by P. rapae. The plants used in the companion systems were two trap crop species: Eruca sativa and Brassica carinata; Tagetes erecta, Amaranthus cruentus and Ocimum grattissimum were used like companion plants because of their properties as insectary plants and repellent species against the targeted pest; Solanum aethiopicum, Ocimum basilicum and Hibiscus sabdariffa were also considered (secondary) companion plant species. Plant physiological parameters as well as microbial and insect community structure were carefully monitored over the growing season where this experiment took place. Larval size was significantly greater in the monoculture and glucosinolate concentrations in leaves of Brassica rapa was two-times higher in control than in more diversified cultivation systems. With larger yield and the absence of pest in the field, ‘trap cropping system’ was overall the most efficient albeit the 'mix of companion planting’ system had the lowest leaf area damage. A PERMANOVA confirmed a significant difference between the cultivation methods regarding beneficial insect communities’ composition. Belowground, soil bacterial communities were readily modified by sustainable agriculture practice, even more so in biodiversified systems. The study highlighted benefits of agroecology, including companion planting, in terms of integrated pest management and other components of the agroecosystem.
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Modelling and analysis of conversion efficiency in flow-through catalysts for lean-burn combustion enginesRuiz Lucas, María José 09 June 2023 (has links)
[ES] La preocupación mundial por el cambio climático y la calidad del aire se refleja en normativas para la regulación de emisiones en el sector del transporte cada vez más estrictas, situando el desarrollo de sistemas propulsivos sostenibles como el objetivo fundamental. En el caso de los motores de combustión interna, el uso de sistemas de postratamiento de gases de escape, necesario para cumplir con los límites impuestos a las emisiones contaminantes, ha añadido mayor complejidad a la línea de escape. Una correcta comprensión de la respuesta de estos sistemas y su interacción con el motor requiere un profundo conocimiento de los procesos termo-fluidodinámicos y químicos que tienen lugar en los mismos. Su estudio indica que las mayores contribuciones a la reducción de las emisiones consisten en conseguir una activación más rápida de los catalizadores. Sin embargo, por lo general, las estrategias empleadas para alcanzar este fin se traducen en una penalización del consumo de combustible y, por consiguiente, de las emisiones de CO2.
En este contexto, el objetivo de esta tesis doctoral es contribuir a la comprensión de los fenómenos presentes en los reactores monolíticos de flujo continuo utilizados en los motores de combustión pobre. En primer lugar, se presenta el desarrollo de una herramienta computacional para el modelado de los reactores estándar, es decir, los monolitos con recubrimiento catalítico monocapa, con un coste computacional bajo que permite responder de manera oportuna a las nuevas condiciones de contorno. El modelo se construyó dentro del entorno de modelo de motor virtual VEMOD, un software de dinámica de gases desarrollado por el I.U.I. CMT-Motores Térmicos para la simulación termo-fluidodinámica de motores de combustión interna y sus componentes. Apoyada sobre experimentos específicos para su calibración y validación en catalizadores de oxidación y de reducción de NOx, la herramienta computacional permite la identificación y el estudio de los parámetros que determinan la eficiencia de conversión de los sistemas de postratamiento. De esta forma, se aplica, con un enfoque de cálculo de valor medio, al análisis, en primer lugar, del impacto de la meso-geometría y el material de catalizadores de oxidación en condiciones dinámicas en función de la forma del canal. También se aborda el estudio de la sensibilidad a la composición de los gases de escape considerando diversas estrategias de combustión comparadas con el diésel convencional, así como el empleo de combustibles alternativos. Por último, se explora experimentalmente la importancia de la ubicación en la línea de escape de un catalizador de oxidación para discutir el efecto sobre las emisiones y el rendimiento del motor de la ubicación pre-turbina, por los beneficios que a nivel térmico tiene esta localización para el postratamiento. Todo ello sirve como fuente de desarrollos tecnológicos y científicos en el área de control de emisiones para el uso y comprensión de la nueva generación de sistemas de postratamiento. / [CA] La preocupació mundial pel canvi climàtic i la qualitat de l'aire es reflecteix en normatives per a la regulació d'emissions en el sector del transport cada vegada més estrictes, situant el desenvolupament de sistemes propulsius sostenibles com l'objectiu fonamental. En el cas dels motors de combustió interna, l'ús de sistemes de posttractament de gasos de fuita, necessari per a complir amb els límits imposats a les emissions contaminants, ha afegit major complexitat a la línia de fuita. Una correcta comprensió de la resposta d'aquests sistemes i la seua interacció amb el motor requereix un profund coneixement dels processos termo-fluidodinámicos i químics que tenen lloc en aquests. El seu estudi indica que les majors contribucions a la reducció de les emissions consisteix a aconseguir una activació més ràpida dels catalitzadors. No obstant això, en general, les estratègies emprades per a aconseguir aquest objectiu es tradueixen en una penalització del consum de combustible i, per consegüent, de les emissions de CO2.
En aquest context, l'objectiu d'aquesta tesi doctoral és contribuir a la comprensió dels fenòmens presents en els reactors monolítics de flux continu utilitzats en els motors de combustió pobra. En primer lloc, es presenta el desenvolupament d'una eina computacional per al modelatge dels reactors estàndard, és a dir, els monòlits amb recobriment catalític monocapa, amb un cost computacional baix que permet respondre de manera oportuna a les noves condicions de contorn. El model es va construir dins de l'entorn de model de motor virtual VEMOD, un programari de dinàmica de gasos desenvolupat per l'I.U.I. CMT-Motors Tèrmics per a la simulació termo-fluidodinámica de motors de combustió interna i els seus components. Recolzada sobre experiments específics per al seu calibratge i validació en catalitzadors d'oxidació i de reducció de NOx, l'eina computacional permet la identificació
l'estudi dels paràmetres que determinen l'eficiència de conversió dels sistemes de posttractament. D'aquesta manera, s'aplica, amb un enfocament de càlcul de valor mitjà, a l'anàlisi, en primer lloc, de l'impacte de la meso-geometria i el material de catalitzadors d'oxidació en condicions dinàmiques en funció de la forma del canal. També s'aborda l'estudi de la sensibilitat a la composició dels gasos de fuita considerant diverses estratègies de combustió comparades amb el dièsel convencional, així com l'ús de combustibles alternatius. Finalment, s'explora experimentalment la importància de la ubicació en la línia de fuita d'un catalitzador d'oxidació per a discutir l'efecte sobre les emissions i el rendiment del motor de la ubicació pre-turbina, pels beneficis que a nivell tèrmic té aquesta localització per al posttractament. Tot això serveix com a font de desenvolupaments tecnològics i científics en l'àrea de control d'emissions per a l'ús i comprensió de la nova generació de sistemes de posttractament. / [EN] The global concern on climate change and air quality is reflected over increasingly strict emission regulations in the transportation sector, making the development of sustainable propulsion systems the key objective. In the case of internal combustion engines, the use of aftertreatment systems (ATS), necessary to comply with the limits imposed on pollutant emissions, has added further complexity to the exhaust line. A correct comprehension of the response of these systems and their interaction with the engine requires an in-depth knowledge of the thermo-fluid-dynamic and chemical processes taking place inside them. Their study indicates that the major contributions to emission reduction rely on driving the catalysts to a faster light-off. However, in general, the strategies employed to achieve this goal involve a fuel consumption penalty and, consequently, CO2 emissions increase.
In this context, the aim of this Ph.D. thesis is to contribute to the understanding of the phenomena present in flow-through catalysts used in lean burn combustion engines. First, the development of a computational tool for modelling the standard devices, i.e. mono-layers washcoat catalysts, is presented, with flexible and low computational cost, enabling timely response to the new boundary conditions. The model was built inside the Virtual Engine Model VEMOD, an open-source gas dynamics software developed by I.U.I. CMT-Motores Térmicos for thermo-fluid-dynamic simulation of internal combustion engines and their components. Supported by specific experiments for its calibration and validation on oxidation and NOx reduction catalysts, the computational tool allows the identification and study of the parameters that determine the conversion efficiency of the ATS. In the first instance it is used to analyze the impact of meso-geometry and oxidation catalyst material under dynamic conditions as a function of the channel shape. The study of the sensitivity to exhaust gas composition is also addressed considering various combustion strategies compared to conventional diesel, as well as the use of alternative fuels. Finally, the importance of the position in the exhaust line of an oxidation catalyst is explored experimentally to discuss the effect on emissions and engine performance of the pre-turbine location, because of the thermal benefits of this location for the aftertreatment. All of this serves as a source of technological and scientific developments in the area of emissions control for the use and comprehension of the new generation of aftertreatment systems. / Ruiz Lucas, MJ. (2023). Modelling and analysis of conversion efficiency in flow-through catalysts for lean-burn combustion engines [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/194012
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Mesures de corrélations dans un gaz de bosons unidimensionnel sur puce / Probing correlations in a one-dimensional gas of bosons on an atom chipJacqmin, Thibaut 22 November 2012 (has links)
Nous présentons dans ce manuscrit des mesures de corrélations spatiales à un et deux corps effectuées sur un gaz de bosons unidimensionnel et ultra-froid piégé à la surface d'une microstructure. Les corrélations à deux corps sont mises en évidence par des mesures de fluctuations de densité in situ ; les corrélations à un corps sont sondées grâce à des mesures de distributions en impulsion. Nous avons observé des fluctuations de densité sub-poissoniennes dans le régime d'interactions faibles, mettant ainsi en évidence pour la première fois le sous-régime du régime de quasi-condensat dans lequel la fonction de corrélation à deux corps est dominée par les fluctuations quantiques. Nous avons également observé des fluctuations sub-poissoniennes quelle que soit la densité dans le régime d'interactions fortes ; notre mesure constitue la première observation d'un unique gaz de bosons unidimensionnel dans ce régime. Le piège magnétique que nous avons utilisé est un piège modulé qui possède la propriété remarquable de découplage entre confinements transverse et longitudinal. Cette spécificité nous a permis de façonner à volonté la forme du confinement longitudinal. En particulier, nous avons pu obtenir des pièges harmoniques et quartiques. Nous avons également utilisé les propriétés de ce piège modulé afin de réaliser une lentille magnétique longitudinale. Cette technique nous a permis de mesurer la distribution en impulsion du gaz, dans le régime d'interactions faibles. Nous présentons deux résultats, obtenus de part et d'autre de la transition molle entre les régimes de gaz de Bose idéal et de quasi-condensat. Sur le plan théorique, nous montrons qu'une théorie de champ classique ne suffit pas à décrire quantitativement cette transition molle pour les paramètres typiques de l'expérience. Nous avons donc recours à des calculs Monte-Carlo quantiques. La température extraite de l'ajustement de nos donnée par ces calculs est en bon accord avec celle obtenue en ajustant les fluctuations de densité in situ avec la thermodynamique de C. N. Yang et C. P. Yang. Enfin, nous démontrons une méthode de compensation de la gravité (piégeage harmonique résiduel) lors de la phase de lentille magnétique, qui nous permet d'améliorer considérablement la résolution en impulsion de cette technique. / In this manuscript, we present spatial one and two-body correlation measurements performed on a one-dimensional gas of ultra-cold bosons trapped at the surface of a microstructure. Two body correlations are highlighted by measurements of in situ density fluctuations and one-body correlations are probed through measurements of momentum distributions.We observed sub-Poissonian density fluctuations in the regime of weak interactions, thus demonstrating for the first time the regime of quasi-condensate in which the two-body correlation function is dominated by quantum fluctuations. We also observed sub-Poissonian fluctuations regardless of the density in the regime of strong interactions. Our measurement is the first observation of a single one-dimensional gas of bosons in this regime.The magnetic trap that we used is a modulated trap that has the remarkable property of decoupling between transverse and longitudinal confinements. This specificity has enabled us to engineer at will the shape of the longitudinal confinement. In particular, we were able to obtain harmonic and quartic traps.
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Struktur und Funktion der 20S Proteasomen aus Organen Listeria monocytogenes infizierter MäuseStrehl, Britta Katharina 28 June 2005 (has links)
Das Proteasomensystem der Zelle ist für die Degradation von Proteinen verantwortlich und spielt eine zentrale Rolle bei der Generierung von Epitopen, die auf MHC-Klasse-I Molekülen den cytotoxischen T-Lymphozyten (CTLs) präsentiert werden. Die Stimulation von Zellen mit Interferon-gamma (IFNgamma) führt zu der Bildung von Immunoproteasomen, die im Vergleich zu den konstitutiven Proteasomen eine verbesserte Generierung vieler MHC-Klasse-I Epitope aufweisen. In gesunden Mäusen werden Immunoproteasomen vorwiegend in den lymphatischen Geweben exprimiert, wohingegen nicht-lymphatische Gewebe hauptsächlich konstitutive Proteasomen enthalten. In der vorliegenden Arbeit wurde der Einfluss der Listeria monocytogenes Infektion auf die aus der Leber, der Milz, dem Dünndarm und dem Colon stammenden murinen 20S Proteasomen untersucht. Die Struktur der isolierten 20S Proteasomen wurde mittels zweidimensionaler Gelelektrophorese und Westernblot ermittelt, während die Funktion durch in vitro Prozessierung von drei oligomeren Peptidsubstraten analysiert wurde. Die Prozessierungsprodukte wurden mittels HPLC-ESI-Ionenfalle massenspektrometrisch identifiziert sowie quantifiziert. Die vorliegende Arbeit zeigt zum ersten Mal, dass nach einer Infektion die aus den nicht-lymphatischen Organen und Zellen isolierten 20S Proteasomen eine strukturelle und funktionelle Plastizität aufweisen: Nach der Infektion wurde die Bildung von Immunoproteasomen induziert, was mit der gesteigerten Generierung der immunrelevanten Fragmente korreliert werden konnte. Dies verlief unabhängig von der direkten Präsenz von Listeria monocytogenes in den Organen und wurde ausschließlich durch das Cytokin IFNgamma reguliert. Es konnte außerdem eine Zunahme der posttranslationalen Modifikation von Leberproteasomen mit dem Monosaccharid N-Acetylglucosamin nach der Infektion nachgewiesen werden. Des Weiteren wurde eine detaillierte Analyse der massenspektrometrischen Daten hinsichtlich des Schnittverhaltens der konstitutiven und Immunoproteasomen etabliert. Die Auswertung ergab, dass die Immunoproteasomen nach der Infektion durch schnellere und veränderte Nutzung bestehender Spaltstellen an der verbesserten Epitoppräsentation beteiligt sind. / The proteasome system of the cell is responsible for the degradation of proteins and plays a central role in the generation of epitopes which are presented to cytotoxic T-lymphocytes (CTLs) on MHC-class-I molecules. The stimulation of cells by interferon-gamma (IFNgamma) leads to the formation of immunoproteasomes that show an improved generation of many MHC-class-I epitopes compared to constitutive proteasomes. In healthy mice, immunoproteasomes are mainly expressed in the lymphatic tissues, whereas the non-lymphatic organs predominantly contain constitutive proteasomes. In this project the effect of Listeria monocytogenes infection on murine 20S proteasomes derived from the liver, spleen, small intestine and colon were investigated. The structure of the isolated proteasomes was analyzed by two-dimensional gel electrophoresis and western blots while the function was studied by in vitro processing of three oligomeric peptide substrates. Identification and quantification of the processing products was performed by HPLC-ESI-ion trap mass spectrometry. The project showed for the first time, that after infection 20S proteasomes isolated from non-lymphatic organs as well as from non-lymphatic cells displayed structural and functional plasticity: immunoproteasomes were induced post infection which could be correlated with the enhanced generation of immuno-relevant fragments. This was independent of the direct presence of Listeria monocytogenes in the organs and solely controlled by the cytokine IFNgamma. In addition, an increased posttranslational modification with the monosaccharide N-acetylglucosamine could be detected in liver-derived proteasomes after infection. Furthermore, a detailed analysis of the mass spectrometry data was established according to the cleavage site usage of constitutive and immunoproteasomes. The result was that immunoproteasomes are involved in improved generation of the immuno-relevant fragments by the faster cleavage and the changed usage of existing cleavage sites after infection.
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Funktionelle Vielfalt von Hymenopteren entlang eines Gradienten agroforstlicher Nutzung in Indonesien / Functional diversity of Hymenoptera along a gradient of agroforestry management in IndonesiaHöhn, Patrick 15 November 2007 (has links)
No description available.
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Physical processes and biogeochemistry of particle fluxes over the Beaufort slope and in Canada BasinO'Brien, Mary C. 28 August 2009 (has links)
Sedimentation rates and compositions of sinking particles were investigated at three sites on the Beaufort slope and one in Canada Basin during the period 1990-1994 using moored sequential sediment traps. A method was developed to identify the terrigenous and biogenic components of the fluxes. The physical context including ice cover, ocean currents, river inputs, winds, air temperature, incident light, and nutrient availability provide essential information to the interpretation of the particle fluxes and to the understanding of shelf-basin sediment transport in this area. Eddies, internal waves, upwelling and downwelling, and the state of the ice cover all played important and overlapping roles in the pattern of observed fluxes. A peak in the flux of highly terrigenous material under complete ice cover in mid-winter to the northwest of Mackenzie Trough was associated with predominantly downwelling conditions and the passage of a series of eddies and internal waves. A prolonged spring diatom bloom occurred in the mid-slope area and was clearly associated with an early opening of the ice on the east side of the shelf. Higher fluxes at the Canada Basin site were associated with a large eddy clearly identifiable from the current-T-S record and also from the composition of the suspended material carried with it. At the base of the slope (2700 m), the composition was highly terrigenous and remarkably consistent. Higher up the slope (700 m), biogenic peaks in the summer diluted the terrigenous material briefly, but it appears that there is a constant background of highly terrigenous material. There was a high degree of variability between sites and over the slope there was not enough data to asses the inter-annual variability. In Canada Basin, the inter-annual variability was closely linked to the extent of open water in the summer period. At all sites, lateral transport is clearly indicated by the increase in flux with depth. The data robustly demonstrate the need for detailed knowledge of physical processes for informed interpretation of particle fluxes and sediment transport in this area.
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Equilibrium and out-of-equilibrium physics of Bose gases at finite temperatureWolswijk, Louise 24 June 2022 (has links)
The physics of ultracold quantum gases has been the subject of a long-lasting and intense research activity, which started almost a century ago with purely theoretical studies and had a fluorishing experimental development after the implementation of laser and evaporative cooling techniques that led to the first realization of a Bose Einstein condensate (BEC) over 25 years ago.
In recent years, a great interest in ultracold atoms has developed for their use as platforms for quantum technologies, given the high degree of control and tunability offered by ultracold atom systems. These features make ultracold atoms an ideal test bench for simulating and studying experimentally, in a controlled environment, physical phenomena analogous to those occurring in other, more complicated, or even inaccessible systems, which is the idea at the heart of quantum simulation. In the rapidly developing field of quantum technologies, it is highly important to acquire an in-depth understanding of the state of the quantum many-body system that is used, and of the processes needed to reach the desired state. The preparation of the system in a given target state often involves the crossing of second order phase transitions, bringing the system strongly out-of-equilibrium. A better understanding of the out-of-equilibrium processes occurring in the vicinity of the transition, and of the relaxation dynamics towards the final equilibrium condition, is crucial in order to produce well-controlled quantum states in an efficient way. In this thesis I present the results of the research activity that I performed during my PhD at the BEC1 laboratory of the BEC center, working on ultracold gases of 23Na atoms in an elongated harmonic trap. This work had two main goals: the accurate determination of the equilibrium properties of a Bose gas at finite temperature, by the measurement of its equation of state, and the investigation of the out-of-equilibrium dynamics occurring when a Bose Einstein condensate is prepared by cooling a thermal cloud at a finite rate across the BEC phase transition.To study the equilibrium physics of a trapped atomic cloud, it is crucial to be able to observe its density distribution in situ. This requires a high optical resolution to accurately obtain the density profile of the atomic distribution, from which thermodynamic quantities can then be extracted. In particular, in a partially condensed atomic cloud at finite temperature, it is challenging to resolve well also the boundaries of the BEC, where the condensate fraction rapidly drops in a narrow spatial region. This required an upgrade of the experimental apparatus in order to obtain a high enough resolution. I designed, tested and implemented in the experimental setup new imaging systems for all main directions of view. Particular attention was paid for the vertical imaging system, which was designed to image the condensates in trap with a resolution below 2 μm, with about a factor 4 improvement compared to the previous setup. The implementation of the new imaging systems involved a partial rebuilding of the experimental apparatus used for cooling the atoms. This created the occasion for an optimization of the whole system to obtain more stable working conditions. Concurrently I also realized and included in the experiment an optical setup for the use of a Digital Micromirror Device (DMD) to project time-dependent arbitrary light patterns on the atoms, creating optical potentials that can be controlled at will. The use of this device opens up exciting future scenarios where it will be possible to locally modify the trapping potential and to create well-controlled barriers moving through the atomic cloud. Another challenge in imaging the density distribution in situ is determined by the fact that the maximum optical density (OD) of the BEC, in the trap center, exceeds the low OD of the thermal tails by several orders of magnitude. In order to obtain an accurate image of the whole density profile, we developed a minimally destructive, multi-shot imaging technique, based on the partial transfer of a fraction of atoms to an auxiliary state, which is then probed. Taking multiple images at different extraction fractions, we are able to reconstruct the whole density profile of the atomic cloud avoiding saturation and maintaining a good signal to noise ratio. This technique, together with the improvements in the imaging resolution, has allowed us to accurately obtain the optical density profile of the Bose gas in trap, from which the 3D density profile was then calculated applying an inverse Abel transform, taking advantage of the symmetry of the trap. From images of the same cloud after a time-of-flight expansion, we measured the temperature of the gas. From these quantities we could find the pressure as a function of the density and temperature, determining the canonical equation of state of the weakly interacting Bose gas in equilibrium at finite temperature. These measurements also allowed us to clearly observe the non-monotonic temperature behavior of the chemical potential near the critical point for the phase transition, a feature that characterizes also other superfluid systems, but that had never been observed before in weakly interacting Bose gases. The second part of this thesis work is devoted to the study of the dynamical processes that occur during the formation of the BEC order parameter within a thermal cloud. The cooling at finite rate across the Bose-Einstein condensation transition brings the system in a strongly out-of-equilibrium state, which is worth investigating, together with the subsequent relaxation towards an equilibrium state. This is of interest also in view of achieving a better understanding of second order phase transitions in general, since such phenomena are ubiquitous in nature and relevant also in other platforms for quantum technologies. A milestone result in the study of second order phase transitions is given by the Kibble-Zurek mechanism, which provides a simple model capturing important aspects of the evolution of a system that crosses a second-order phase transition at finite rate. It is based on the principle that in an extended system the symmetry breaking associated with a continuous phase transition can take place only locally. This causes the formation of causally disconnected domains of the order parameter, at the boundaries of which topological defects can form, whose number and size scale with the rate at which the transition is crossed, following a universal power law. It was originally developed in the context of cosmology, but was later successfully tested in a variety of systems, including superfluid helium, superconductors, trapped ions and ultracold atoms. The BEC phase transition represents in this context a paradigmatic test-bench, given the high degree of control at which this second-order phase transition can be crossed by means of cooling ramps at different rates. Already early experiments investigated the formation of the BEC order parameter within a thermal cloud, after quasi-instantaneous temperature quenches or very slow evaporative cooling. In the framework of directly testing the Kibble-Zurek mechanism, further experiments were performed, both in 2D and 3D systems, focusing on the emergence of coherence and on the statistics of the spontaneously generated topological defects as a function of the cooling rate. The Kibble-Zurek mechanism, however, does not fully describe the out-of-equilibrium dynamics of the system at the transition, nor the post-quench interaction mechanisms between domains that lead to coarse-graining. Most theoretical models are based on a direct linear variation of a single control parameter, e.g. the temperature, across the transition. In real experiments, the cooling process is controlled by the tuning of other experimental parameters and a global temperature might not even be well defined, in a thermodynamic sense, during the whole process. Moreover, the temperature variation is usually accompanied by the variation of other quantities, such as the number of atoms and the collisional rate, making it difficult to accurately describe the system and predict the post-quench properties. Recent works included effects going beyond the Kibble-Zurek mechanism, such as the inhomogeneity introduced by the trapping potential, the role of atom number losses, and the saturation of the number of defects for high cooling rates. These works motivate further studies, in particular of the dynamics taking place at early times, close to the crossing of the critical point. The aim of the work presented in this thesis is to further investigate the timescales associated to the formation and evolution of the BEC order parameter and its spatial fluctuations, as a function of the rate at which the transition point is crossed. We performed experiments producing BECs by means of cooling protocols that are commonly used in cold-atom laboratories, involving evaporative cooling in a magnetic trap. We explored a wide range of cooling rates across the transition and found a universal scaling for the growth of the BEC order parameter with the cooling rate and a finite delay in its formation. The latter was already observed in earlier works, but for a much more limited range of cooling rates. The evolution of the fluctuations of the order parameter was also investigated, with an analysis of the timescale of their decay during the relaxation of the system, from an initial strongly out-of-equilibrium condition to a final equilibrium state. This thesis is structured as follows: The first chapter presents the theoretical background, starting with a brief introduction to the concept of Bose Einstein condensation and a presentation of different models describing the thermodynamics of an equilibrium Bose gas. The second part of this chapter then deals with the out-of-equilibrium dynamics that is inevitably involved in the crossing of a second-order phase transition such as the one for Bose-Einstein condensation. The Kibble-Zurek mechanism is briefly reviewed and beyond KZ effects are pointed out, motivating a more detailed investigation of the timescales involved in the BEC formation. In the second chapter, I describe the experimental apparatus that we use to cool and confine the atoms. Particular detail is dedicated to the parts that have been upgraded during my PhD, such as the imaging system. In the third chapter I show our experimental results on the measurement of the equation of state of the weakly interacting uniform Bose gas at finite temperature. In the fourth chapter I present our results on the out-of-equilibrium dynamics in the formation of the condensate order parameter and its spatial fluctuations, as a function of different cooling rates.
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Functional Characterization of Actin Sequestering Proteins in Plasmodium bergheiHliscs, Marion 17 January 2012 (has links)
Plasmodien spp. sind obligat intrazellulär lebende Parasiten, welche einen evolutionär konservierten aktinabhängigen molekularen Motor für die Fortbewegung und den Wirtszellein- und -austritt nutzen. In dieser Arbeit werden die Aktinregulatoren Adenylyl- Zyklase- assoziierte Protein (C-CAP), Profilin sowie die Aktin depolymerizierenden Faktoren 1 und 2 (ADF1, ADF2) in Plasmodium berghei charakterisiert. Die Geninaktivierung von C-CAP besitzt keinen Einfluss auf die Entwicklung von pathogenen Blutstadien. C-cap(-) Ookineten bewegen sich jedoch deutlich langsamer, sind aber in der Lage den invertebraten Wirt zu infizieren. Defekte treten während der extrazellulären Replikationsphase im Mosquito auf und führen zu Abbruch des Lebenszykluses. Die erfolgreiche Komplementierung der Defekte mit dem orthologen Gen aus Cryptosporidium parvum CpC-CAP bestätigt die funktionale Redundanz zwischen beiden Proteinen. Profilin, als ein weiteres G-Aktin bindendes Protein, ist hingegen nicht in der Lage die Defekte des c-cap(-) Parasiten auszugleichen. Mittels transgener Parasiten welche ein C-CAPmCherry Fusionsprotein exprimieren, wird das C-CAP Protein im Zytoplasma lokalisiert. Erstmals wird mit dieser Arbeit ein G-Aktin bindendes Protein, C-CAP beschrieben, welches eine essentielle Funktion während der Oozystenreifung in Plasmodium berghei besitzt. Die Transkription der Aktinregulatoren Profilin, ADF1 und ADF2 wird in Sporozoiten drastisch herunterreguliert und Profilin kann als Protein nicht mehr nachgewiesen werden. Um die Funktion von C-CAP und Profilin zu überprüfen, wurden beide Proteine spezifisch in Sporozoiten überexprimiert. Diese Parasiten sind nicht in der Lage die Speicheldrüsen des Wirtes zu besiedeln, was zum Abbruch des Lebenszykluses führt. Anhand dieser Ergebnisse entwickele ich ein „minimalistisches“ Model zur Beschreibung der Aktinregulation in Sporozoiten in welchem das ADF1 als regulatorisches Protein im Mittelpunkt steht. / Plasmodium spp. are obligate intracellular parasites, which employ an conserved actin-dependent molecular motor machinery that facilitates their motility, host cell invasion and egress. In this work I report implications of the actin-regulators adenylyl cyclase-associated protein (C-CAP), profilin and actin depolymerization factor 1 and 2 (ADF1, ADF2) in distinct and previously unanticipated cellular processes during the life cycle of in the rodent malarial parasite Plasmodium berghei. Fluorescent tagging of the endogenous C-CAP genetic locus with mCherry revealed cytosolic distribution of the protein. Gene deletion demonstrates that the G-actin binding protein C-CAP is entirely dispensable for the pathogenic blood stages. Ookinetes show reduced motility, but are competent infecting the mosquito host. Defects emerging in the extracellular replication phase, leading to attenuation of oocyst maturation. Successful trans-species complementation with the C. parvum C-CAP ortholog, rescues the c-cap(-) phenotype and proves functional redundancy. The actin regulator profilin fails to rescue the defects of c-cap(-) parasites, despite sharing its actin sequestering activity with C-CAP. Taken together, C-CAP is the first G-actin sequestering protein of Plasmodium species that is not required for motility but performs essential functions during oocyst maturation. Characterization of the actin regulators profilin, ADF1 and ADF2 revealed dramatic transcriptional down-regulation and the absence of the profilin protein in sporozoites. To test whether G-actin binding proteins interfere with sporozoite functions, I ectopically overexpressed of profilin and C-CAP stage-specifically in sporozoites. This conducted to abolishment of salivary gland invasion and lifecycle arrest. Based on these unexpected findings and the available literature data, I developed a “minimalistic model” for actin regulation in sporozoites that predicts ADF1 as the main actin-turnover regulating factor.
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