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821	美日「帕奈號」(U. S. S. Panay)事件與中美關係(1937-1938) / The Panay Incident and the Sino-American Relations, 1937-1938 楊凡逸 Unknown Date (has links) No description available. 外交史中美關係海軍史帕奈號羅斯福美孚火油行 Panay Roosevelt, Franklin D. Hull, Cordell ino-American Relations Diplomatic History Standard Vacuum Oil Company
822	Pulvérisation cathodique assistée par ordinateur JIANG, Yan Mei 04 December 1992 (has links) (PDF) La pulvérisation cathodique est l'une des méthodes les plus utilisées pour le dépôt de films minces. Elle présente de nombreux avantages, mais elle est délicate à mettre en ?uvre dans le cas de films minces d'alliages parce qu'il est très difficile d'en contrôler la composition chimique. C'est pour tenter de résoudre ce problème que nous avons conçu et réalisé un équipement de pulvérisation cathodique triode à courant continu ultravide multicible séquentiel assistée par ordinateur. Ce dispositif est capable de fabriquer des couches minces dont la composition chimique est définie à mieux que 0,4 %. Il permet de contrôler la composition chimique au niveau d'une monocouche atomique. Il est constitué de quatre sous-ensembles : le contrôle du plasma, le contrôle du taux de dépôt, le calcul du rendement de pulvérisation cathodique, et enfin le séquençage rapide de la polarisation des cibles. Le taux de dépôt est obtenu par une mesure de la fréquence de résonance d'un quartz de 16 MHz, grâce à une chaîne de comptage reliée à un ordinateur. En utilisant un dispositif de vernier digital, nous avons pu d'une part augmenter la vitesse de lecture du quartz, de manière à évaluer sa dérive en température et à s'en affranchir, d'autre part améliorer la résolution (10 picogrammes par seconde), ce qui nous permet de déceler le 1/1000e de couche atomique en un temps de comptage de 100 millisecondes. Il est ainsi possible de réaliser un ajustement dynamique de la composition chimique d'un film mince pendant le processus de pulvérisation. Cet objectif a pu être réalisé grâce au contrôle par un ordinateur de la durée de polarisation des cibles. Ce dispositif a été utilisé pour la fabrication de films minces bolométriques couvrant une très large gamme de température. [PHYS:COND] Physics/Condensed Matter pulvérisation cathodique balances à quartz ordinateur acquisition de données film mince dépôts d'alliages ultravide instrumentation sputtering deposition quartz balances computer data acquisition thin films alloys deposition ultra-high vacuum instrumentation
823	Preparation and characterization of vapour deposited films based on substituted 2,5-diphenyl-1,3,4-oxadiazole derivatives Xü, Chenggang January 2004 (has links) Diese Arbeit befasst sich mit dem Einfluss der molekularen Struktur von 2,5-Diphenyl-1,3,4-Oxadiazol-Derivaten auf die Präparierung dünner Schichten mittels Vakuumdeposition. Dünne Schichten von diesen Substanzen wurden auf Si/SiO2 aufgedampft und ihre Struktur systematisch mittels XSR, AFM und IR untersucht. Das Ergebnis zeigt, dass die Schichtstrukturen offenbar von Substratetemperatur (Ts) abhängig sind. Im untersuchten Ts-Bereich bilden etherverbrückte Oxadiazole immer geordnete Schichten und die Schichtperiodicität hängt linear von der Längen der aliphatischen Ketten, während sich bei den amidverbrückten Oxadiazolen nur bei hohen Ts geordnete Schichten bilden können. Diese Unterschiede sind auf die intermolekularen Wasserstoffbrücken zurückzuführen. Der Tilt-Winkel der Moleküle ist durch die Wechselwirkung zwischen dem aromatischen Teil bestimmt. Die Wechselwirkungen zwischen den Kopfgruppen können durch Tempern abgeschwächt werden und führen zur Strukturumwandlung von Schichten, die auf etherverbrückten Oxadiazolen basieren. Alle Schichten von etherverbrückten Oxadiazolen haben Doppelschicht-Struktur, aber amidverbrückte Oxadiazole bilden nur Doppelschicht-Strukturen, wenn die Moleküle eine Kopfgruppe besitzen. / The correlations between the chemical structures of the 2,5-diphenyl-1,3,4-oxadiazole compounds and their corresponding vapour deposited film structures on Si/SiO2 were systematically investigated with AFM, XSR and IR for the first time. The result shows that the film structure depends strongly on the substrate temperature (Ts). For the compounds with ether bridge group, the film periodicity depends linearly on the length of the aliphatic chain. The films based on those oxadiazols have ordered structure in the investigated substrate temperature region, while die amide bridged compounds form ordered film only at high Ts due to the formation of intermolecular H-bond. The tilt angle of most molecules is determined by the pi-pi complexes between the molecules. The intermolecular interaction between head groups leads to the structural transformation during the thermal treatment after deposition. All the ether bridged oxadiazoles form films with bilayer structure, while amide bridged oxadiazole form film bilayer structure only when the molecule has a head group. Physics
824	Casimir-Polder interaction in second quantization Schiefele, Jürgen January 2011 (has links) The Casimir-Polder interaction between a single neutral atom and a nearby surface, arising from the (quantum and thermal) fluctuations of the electromagnetic field, is a cornerstone of cavity quantum electrodynamics (cQED), and theoretically well established. Recently, Bose-Einstein condensates (BECs) of ultracold atoms have been used to test the predictions of cQED. The purpose of the present thesis is to upgrade single-atom cQED with the many-body theory needed to describe trapped atomic BECs. Tools and methods are developed in a second-quantized picture that treats atom and photon fields on the same footing. We formulate a diagrammatic expansion using correlation functions for both the electromagnetic field and the atomic system. The formalism is applied to investigate, for BECs trapped near surfaces, dispersion interactions of the van der Waals-Casimir-Polder type, and the Bosonic stimulation in spontaneous decay of excited atomic states. We also discuss a phononic Casimir effect, which arises from the quantum fluctuations in an interacting BEC. / Die durch (quantenmechanische und thermische) Fluktuationen des elektromagnetischen Feldes hervorgerufene Casimir-Polder-Wechselwirkung zwischen einem elektrisch neutralen Atom und einer benachbarten Oberfläche stellt einen theoretisch gut untersuchten Aspekt der Resonator-Quantenelektrodynamik (cavity quantum electrodynamics, cQED) dar. Seit kurzem werden atomare Bose-Einstein-Kondensate (BECs) verwendet, um die theoretischen Vorhersagen der cQED zu überprüfen. Das Ziel der vorliegenden Arbeit ist es, die bestehende cQED Theorie für einzelne Atome mit den Techniken der Vielteilchenphysik zur Beschreibung von BECs zu verbinden. Es werden Werkzeuge und Methoden entwickelt, um sowohl Photon- als auch Atom-Felder gleichwertig in zweiter Quantisierung zu beschreiben. Wir formulieren eine diagrammatische Störungstheorie, die Korrelationsfunktionen des elektromagnetischen Feldes und des Atomsystems benutzt. Der Formalismus wird anschließend verwendet, um für in Fallen nahe einer Oberfläche gehaltene BECs Atom-Oberflächen-Wechselwirkungen vom Casimir-Polder-Typ und die bosonische Stimulation des spontanen Zerfalls angeregter Atome zu untersuchen. Außerdem untersuchen wir einen phononischen Casimir-Effekt, der durch die quantenmechanischen Fluktuationen in einem wechselwirkenden BEC entsteht. Hohlraum-Quantenelektrodynamik Bose-Einstein-Kondensation Casimir-Polder-Interaktion Vakuumschwankungen van der Waals-Kräfte cavity quantum electrodynamics Bose-Einstein condensation Casimir-Polder interaction vacuum fluctuations van der Waals forces Physics
825	Advances in Thermal Insulation : Vacuum Insulation Panels and Thermal Efficiency to Reduce Energy Usage in Buildings Thorsell, Thomas January 2012 (has links) We are coming to realize that there is an urgent need to reduce energy usage in buildings and it has to be done in a sustainable way. This thesis focuses on the performance of the building envelope; more precisely thermal performance of walls and super insulation material in the form of vacuum insulation. However, the building envelope is just one part of the whole building system, and super insulators have one major flaw: they are easily adversely affected by other problems in the built environment. Vacuum Insulation Panels are one fresh addition to the arsenal of insulation materials available to the building industry. They are composite material with a core and an enclosure which, as a composite, can reach thermal conductivities as low as 0.004 W/(mK). However, the exceptional performance relies on the barrier material preventing gas permeation, maintaining a near vacuum into the core and a minimized thermal bridge effect from the wrapping of barrier material round the edge of a panel. A serpentine edge is proposed to decrease the heat loss at the edge. Modeling and testing shows a reduction of 60% if a reasonable serpentine edge is used. A diffusion model of permeation through multilayered barrier films with metallization coatings was developed to predict ultimate service life. The model combines numerical calculations with analytical field theory allowing for more precise determination than current models. The results using the proposed model indicate that it is possible to manufacture panels with lifetimes exceeding 50 years with existing manufacturing. Switching from the component scale to the building scale; an approach of integrated testing and modeling is proposed. Four wall types have been tested in a large range of environments with the aim to assess the hygrothermal nature and significance of thermal bridges and air leakages. The test procedure was also examined as a means for a more representative performance indicator than R-value (in USA). The procedure incorporates specific steps exposing the wall to different climate conditions, ranging from cold and dry to hot and humid, with and without a pressure gradient. This study showed that air infiltration alone might decrease the thermal resistance of a residential wall by 15%, more for industrial walls. Results from the research underpin a discussion concerning the importance of a holistic approach to building design if we are to meet the challenge of energy savings and sustainability. Thermal insulation efficiency is a main concept used throughout, and since it measures utilization it is a partial measure of sustainability. It is therefore proposed as a necessary design parameter in addition to a performance indicator when designing building envelopes. The thermal insulation efficiency ranges from below 50% for a wood stud wall poorly designed with incorporated VIP, while an optimized design with VIP placed in an uninterrupted external layer shows an efficiency of 99%, almost perfect. Thermal insulation efficiency reflects the measured wall performance full scale test, thus indicating efficiency under varied environmental loads: heat, moisture and pressure. The building design must be as a system, integrating all the subsystems together to function in concert. New design methodologies must be created along with new, more reliable and comprehensive measuring, testing and integrating procedures. New super insulators are capable of reducing energy usage below zero energy in buildings. It would be a shame to waste them by not taking care of the rest of the system. This thesis details the steps that went into this study and shows how this can be done. / QC 20120228 Vacuum insulation panels VIP serpentine edge thermal bridge composite film gas diffusion defect dominated holistic approach building enclosure integrated testing and modeling energy equivalent field performance air flow thermal insulation efficiency
826	Managing a cross-institutional setting : a case study of a Western firm's subsidiary in the Ukraine Hultén, Peter January 2002 (has links) This study explores the development of a Western firm's subsidiary in the Ukraine and sets out to contribute to the theoretical development about the managing of subsidiaries in the Post-Soviet market. The cross-institutional approach to analyse the subsidiary has been adopted to explore influence from the institutional setting of the parent firm and from local institutions. In the theoretical framework, special attention is directed to studies analysing the challenges that Western firms encounter when operating in the Post-Soviet market. Institutional theory therefore serves as a framework for theories on market entries, networks and management transfers.The empirical study is based on a case study conducted in connection to a training project for local employees of a Western firm's subsidiary operating in the Ukraine. Besides being a source of inspiration, the training project provided good access to respondents and insights about the challenges that the subsidiary faced.The analysis shows that the introduction of the Western firm's management in the subsidiary reflects in the local employees' forming of identities. A clear pattern is that local employees' development of identities in line with the Western firm's norms is supported by socialisation in settings dominated by the Western firm. A setting dominated by conflicts between Western and local norms, in contrast, resulted in developments of conflict identities. The analysis of the subsidiary's managing of influences from the local institutional setting indicates that this concerned filtering. Striking was that the subsidiary was successful in managing influences when the filtering conditions were characterised by consonance. Looking into aspects making the filtering of external influences difficult, the analysis points out barter trade and local actors' boundary spanning towards authorities in the Ukrainian society as aspects creating dissonances and vacuum. Thus, influences characterised by dissonance and/or vacuum made it particularly difficult for the subsidiary to manage these influences.One of the major contributions of this thesis is the cross-institutional approach to analyse developments in a subsidiary in the Post-Soviet market. By applying this approach the study suggests that the managing of a cross-institutional setting concerns both internal and external boundary spanning. Of vital importance for the internal boundary spanning are issues influencing local employees' forming of a 'we' with the Western firm's representatives. The standpoint is that this concerns local employees' identity identification, which is a new perspective on management transfers towards a subsidiary in the Post-Soviet market. Concerning the managing of external boundary spanning, the study points towards the importance of observing local actors' ways of dealing with dissonances and vacuum in local networks. / digitalisering@umu Boundary Spanning Consonance Cross-Institutional Dissonance Filtering Filtering Conditions Identity Identification Institutional Influence Networks Norms Post-Soviet Market Power Screening Socialisation Vacuum Företagsetablering Ukraina Nätverksplanering Multinationella företag Dotterbolag Postkommunism
827	Self-assembled molecular arrays of distinct types of substituted metal phthalocyanines on crystalline metal substrates Toader, Marius 29 November 2012 (has links) (PDF) Trotz einer Vielzahl von Forschungsarbeiten auf dem Gebiet der Phthalocyanin-basierten organischen Verbindungen fehlt nach wie vor ein umfassendes Verständnis des Zusammenspiels zwischen strukturellen und elektronischen Eigenschaften, die sich bei der Abscheidung dieser Stoffe auf anorganische kristallinen Substraten ausbilden. Vor diesem Hintergrund wurden für die vorliegende Arbeit vier metallbasierte Phthalocyanine ausgewählt und mittels organischer Molekularstrahl-Abscheidung (OMBD) im Ultrahochvakuum (UHV) auf Ag (111) Einkristalle adsorbiert. Für die anschließende eingehende Untersuchung dieser Proben wurden insbesondere Rastertunnelmikroskopie (STM) und -spektroskopie (STS) angewandt. Ergänzend kamen Ultraviolett- und Röntgen-Photoelektronenspektroskopie (UPS und XPS) zum Einsatz, wodurch komplementäre Informationen gewonnen wurden. Die aus diesen Untersuchungen resultierenden Ergebnisse liefern einen wesentlichen Beitrag zum oben genannten Forschungsgebiet. Die in dieser Arbeit untersuchten Metall-Phthalocyanine (MePc) wurden so ausgewählt, dass eine möglichst große Vielfalt an geometrischen und elektronischen Eigenschaften abgedeckt wurde. Planare cobaltbasierte Phthalocyanin-Moleküle wurden in zwei Konfigurationen untersucht: einerseits das protonierte CoPc, das sich als organischer p-Halbleiter verhält, und andererseits das vollständig fluorinierte F16CoPc, das n-Halbleitereigenschaften besitzt. Bei beiden Systemen zeigte sich an der Position des Cobaltions eine Kopplung zwischen den Molkülorbitalen des Adsorbats und den Elektronenzuständen des Substrates. Das nichtplanare Zinn-Phthalocyanin ist von besonderem Interesse aufgrund seiner beiden möglichen Adsorptionskonformationen up und down, bei denen sich das Sn-Ion oberhalb beziehungsweise unterhalb des Phthalocyaninliganden befindet. Damit stellt dieses System einen möglichen Kandidaten für Anwendungen als molekularer Schalter oder als Speichereinheit dar. In der vorliegenden Studie werden lokalisierte Schaltvorgänge einzelner Moleküle zusammen mit der Möglichkeit einer kontrollierten molekularen Nanostrukturierung gezeigt. Lutetium (III) bisphthalocyanin wurde ausgewählt als Vertreter einer neuen Gruppe von MePc, die eine Sandwichstruktur ausbilden, bei der zwei π-konjugierte Phthalocyaninliganden über ein Seltenerd-Ion miteinander verbunden sind. Die Untersuchung dieses Systems liefert wichtige neue Erkenntnisse, wie zum Beispiel ein umfassendes Verständnis der Vorgänge bei der Selbstassemblierung innerhalb der ersten und zweiten organischen Monolage. Zudem wurde bei der Charakterisierung des Tunneltransports durch einzelne Moleküle mittels STS ein negativer differentieller Widerstand (NDR) gefunden, der von der Anzahl molekularer Lagen abhängt. Phthalocyanine organischer Molekularstrahldeposition Ultrahochvakuum Organische Moleküle Selbstorganisierten Monoschicht Negativer Differentieller Widerstand Phthalocyanines Organic molecular beam deposition Ultra high vacuum STM STS Photoemission Spectroscopy Negative Differential Resistance ddc:530 Rastertunnelmikroskopie Photoelektronenspektroskopie
828	Bose-Einstein Condensation: Building the Testbeds to Study Superfluidity Naik, Devang S. 11 September 2006 (has links) Since Feynman's realization of using quantum systems to investigate quantum dynamics, interest in creating controllable quantum systems to simulate condensed matter phenomenon has been high. With the realization of BECs in 1995, the realization of a relatively clean testbed for simulating some of these phenomenon became a reality. My PhD research has been an exploration of the production and use of Bose-Einstein Condensates for the study of superfluidity. The first 3 years have been spent in the actual building of a Na BEC apparatus. During this time, we’ve implemented a distinct technique to trap ultra cold Na atoms, i.e. the Optically Plugged Trap. In the process, we have shown how atoms in a linear trap can show spin metastability and thus maintain a nonequilibrium state for long periods of time. In studying the interaction of ultra-cold atoms with light, we have developed a technique to measure the velocity distribution of atoms using a standing optical wave (Bragg Spectroscopy). Alongside this, we have also created optical traps for atoms in which we can change to shape of the trap itself to probe different condensed matter systems. The eventual goal being the investigation of condensed matter physics, specifically superfluidity, using ultra-cold atoms. Time of flight imaging Absorptive imaging Ring dye laser Evaporative cooling Differential pumping Vacuum system Atomic beams MOT Zeeman slower Cold sodium Bose-Einstein condensation Optically plugged trap Linear trap Metastability Bragg spectroscopy Optical trap Magnetic trap Superfluidity Bose-Einstein condensation
829	Carbon based nanomaterials as transparent conductive electrodes Reiter, Fernando 19 May 2011 (has links) Optically transparent carbon based nanomaterials including graphene and carbon nanotubes(CNTs) are promising candidates as transparent conductive electrodes due to their high electrical conductivity coupled with high optical transparency, can be flexed several times with minimal deterioration in their electronic properties, and do not require costly high vacuum processing conditions. CNTs are easily solution processed through the use of surfactants sodium dodecyl sulfate(SDS) and sodium cholate(SC). Allowing CNTs to be deposited onto transparent substrates through vacuum filtration, ultrasonic spray coating, dip coating, spin coating, and inkjet printing. However, surfactants are electrically insulating, limit chemical doping, and increase optical absorption thereby decreasing overall performance of electrodes. Surfactants can be removed through nitric acid treatment and annealing in an inert environment (e.g. argon). In this thesis, the impact of surfactant removal on electrode performance was investigated. Nitric acid treatment has been shown to p-dope CNTs and remove the surfactant SDS. However, nitric acid p-doping is naturally dedoped with exposure to air, does not completely remove the surfactant SC, and has been shown to damage CNTs by creating defect sites. Annealing at temperatures up to 1000°C is advantageous in that it removes insulating surfactants. However, annealing may also remove surface functional groups that dope CNTs. Therefore, there are competing effects when annealing CNT electrodes. The impacts on electrode performance were investigated through the use of conductive-tip atomic force microscopy, sheet resistance, and transmittance measurements. In this thesis, the potential of graphene CNT composite electrodes as high performing transparent electrodes was investigated. As-made and annealed graphene oxide CNT composites electrodes were studied. Finally, a chemical vapor deposition grown graphene CNT composite electrode was also studied. Four point probe Sheet resistance Transfer length method Vacuum filtration Density of states Surfactants C-AFM Sodium cholate SDS Carbon nanotube Graphene Carboxylic acid Surface functional groups Nanostructured materials Electrodes, Carbon Nanotubes Organic electronics Surface active agents Graphene
830	Quantum Coherence and Quantum-Vacuum Effects in Some Artificial Electromagnetic Media Shen, Jianqi January 2009 (has links) The author of this thesis concentrates his attention on quantum optical properties of some artificial electromagnetic media, such as quantum coherent atomic vapors (various multilevel electromagnetically induced transparency vapors) and negative refractive index materials, and suggests some possible ways to manipulate wave propagations inside the artificial electromagnetic materials based on quantum coherence and quantum vacuum effects. In Chapters 1 and 2, the author reviews the previous papers on quantum coherence as well as the relevant work such as electromagnetically induced transparency (EIT), atomic population trapping and their various applications. The basic concepts of quantum coherence (atomic phase coherence, quantum interferences within atomic energy levels) and quantum vacuum are introduced, and the theoretical formulations for treating wave propagations in quantum coherent media are presented. In Chapter 3, the author considers three topics on the manipulation of light propagations via quantum coherence and quantum interferences: i) the evolutional optical behaviors (turn-on dynamics) of a four-level N-configuration atomic system is studied and the tunable optical behavior that depends on the intensity ratio of the signal field to the control field is considered. Some typical photonic logic gates (e.g. NOT and NOR gates) are designed based on the tunable four-level optical responses of the N-configuration atomic system; ii) the destructive and constructive quantum interferences between two control transitions (driven by the control fields) in a tripod-type four-level system is suggested. The double-control quantum interferences can be utilized to realize some photonic devices such as the logic-gate devices, e.g., NOT, OR, NOR and EXNOR gates; iii) some new quantum coherent schemes (using EIT and dressed-state mixed-parity transitions) for realizing negative refractive indices are proposed. The most remarkable characteristic (and advantage) of the present scenarios is such that the isotropic left-handed media (with microscopic structure units at the atomic level) in the optical frequency band can be achieved. Quantum vacuum (the ground state of quantized fields) can exhibit many interesting effects. In Chapter 4, we investigate two quantum-vacuum effects in artificial materials: i) the anisotropic distribution of quantum-vacuum momentum density in a moving electromagnetic medium; ii) the angular momentum transfer between quantum vacuum and anisotropic medium. Such quantum-vacuum macroscopic mechanical effects could be detected by current technology, e.g., the so-called fiber optical sensor that can measure motion with nanoscale sensitivity. We expect that these vacuum effects could be utilized to develop sensitive sensor techniques or to design new quantum optical and photonic devices.In Chapter 5, the author suggests some interesting effects due to the combination of quantum coherence and quantum vacuum, i.e., the quantum coherent effects, in which the quantum-vacuum fluctuation field is involved. Two topics are addressed: i) spontaneous emission inhibition due to quantum interference in a three-level system; ii) quantum light-induced guiding potentials for coherent manipulation of atomic matter waves (containing multilevel atoms). These quantum guiding potentials could be utilized to cool and trap atoms, and may be used for the development of new techniques of atom fibers and atom chips, where the coherent manipulation of atomic matter waves is needed.In Chapter 6, we conclude this thesis with some remarks, briefly discuss new work that deserves further consideration in the future, and present a guide to the previously published papers by us. / QC 20100810 Quantum coherence quantum vacuum electromagnetically induced transparency negative refractive index artificial electromagnetic media multilevel atomic vapors transient evolution Elektroteknik, elektronik och fotonik

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