Global ETD Search

341	Parametrization of relative humidity- and wavelength-dependent optical properties of mixed Saharan dust and marine aerosol Schladitz, Alexander 01 July 2011 (has links) Aerosol particles interact with sunlight through scattering and absorption and have therefore a direct radiative effect. Hygroscopic aerosol particles take up water and are able to grow in size below 100% relative humidity, which involves the change of optical properties and the direct radiative effect. The change of aerosol optical properties for aerosol mixtures under humidification is presently not well understood, especially for the largest particle sources worldwide. The present PhD-thesis quantifies wavelength- and humidity-dependent aerosol optical properties for a mixture of Saharan mineral dust and marine aerosol. For quantification, an aerosol model was developed, which based on in-situ measurements of microphysical and optical properties at Cape Verde. With this model, aerosol optical properties were calculated from the dry state up to 90% relative humidity. To validate the model, a measure of the total extenuated light from particles under ambient conditions was used. Finally, the humidity dependence of aerosol optical properties for marine aerosol, Saharan dust aerosol, and a mixture of both species was described by two empirical equations. With the wavelength of the incident visible solar radiation, relative humidity, and dry dust volume fraction, the humidity dependence of optical properties can be calculated from tabulated values. To calculate radiative effects, aerosol optical properties were used as input parameters for global circulation models including radiative transfer. Due to the complexity of aerosol related processes, they have been treated implicitly, meaning in parameterized form. For modelling purposes, the present PhD-thesis provides a solution to include humidity effects of aerosol optical properties. / Aerosolpartikel wechselwirken durch Streu- und Absorptionsprozesse mit der einfallenden Sonnenstrahlung und haben somit einen direkten Strahlungseffekt. Bei relativen Feuchten bis 100% können Aerosolpartikel aufquellen und somit ihre Größe ändern. Im Zuge des Aufquellens, ändern sich die optischen Eigenschaften und somit auch der direkte Strahlungseffekt der Aerosolpartikel. Speziell für Mischungen von verschiedenen Aerosolspezies ist die Änderung der optischen Eigenschaften des Aerosols durch Feuchte Einfuss noch nicht ausreichend verstanden. Gegenstand der vorliegenden Arbeit ist daher die Quantifizierung der wellenlängen- und feuchteabhängigen optischen Eigenschaften einer Mischung von Saharastaub- und marinen Aerosol. Die zur Quantifizierung notwendigen Daten wurden im Rahmen einer Feldmessung von mikrophysikalischen- und optischen Aerosol-Eigenschaften auf den Kapverdischen Inseln gesammelt. Auf Grundlage dieser Messungen wurde ein Aerosol-Modell entwickelt. Dieses Modell wurde daraufhin verwendet, um Berechnungen von optischen Aerosol-Eigenschaften bei relativen Feuchten bis 90% durchzuführen. Eine Messung der Lichtschwächung durch Aerosolpartikel unter Umgebungsbedingungen wurde verwandt, um das Modell bei Umgebungsfeuchten zu validieren. Die Wellenlängen- und Feuchteabhängigkeit der optischen Eigenschaften des Aerosols wurde parametrisiert und konnte anhand von zwei Parametergleichungen bestimmt werden. Unter Benutzung von tabellierten Werten und der Wellenlänge des einfallenden sichtbaren Sonnenlichtes, der relativen Feuchte, sowie der Staubvolumenfraktion, kann die Feuchteabhängigkeit von wichtigen Aerosol-optischen Eigenschaften für Saharastaub, marinen Aerosol und einer Mischung aus beiden Komponenten bestimmt werden. Globale Zirkulationsmodelle, die auch eine Berechnung von Strahlungseffekten durch Aerosolpartikel beinhalten, nutzen Aerosol-optische Eigenschaften als Eingabeparameter. Durch zunehmende Komplexitiät zur Beschreibung von Wechselwirkungen in der Atmosphäre, sind einfache Parametrisierungen unabdingbar. Die vorliegende Arbeit liefert daher einen wichtigen Beitrag für die Modellierung von Strahlungseffekten durch Aerosolpartikel und somit zum Verständnis des Strahlungshaushaltes der Erde. info:eu-repo/classification/ddc/530 ddc:530
342	Lateral resonant Doppler flow measurement by spectral domain optical coherence tomography Walther, Julia, Koch, Edmund 13 August 2019 (has links) In spectral domain optical coherence tomography (SD-OCT), any transverse motion component of a detected obliquely moving sample results in a nonlinear relationship between the Doppler phase shift and the axial sample velocity restricting phase-resolved Doppler OCT. To circumvent the limitation, we propose the lateral resonant Doppler flow quantification in spectral domain OCT, where the scanner movement velocity is matched to the transverse velocity component of the sample motion. info:eu-repo/classification/ddc/620 ddc:620
343	Imaging the tympanic membrane oscillation ex vivo with Doppler optical coherence tomography during simulated Eustachian catarrh Kirsten, Lars, Burkhardt, Anke, Golde, Jonas, Walther, Julia, Stoppe, Thomas, Bornitz, Matthias, Kemper, Max, Zahnert, Thomas, Koch, Edmund 29 August 2019 (has links) Recently, optical coherence tomography (OCT) was utilized in multiple studies for structural and functional imaging of the middle ear and the tympanic membrane. Since Doppler OCT allows both, the spatially resolved measurement of the tympanic membrane oscillation and high-resolution imaging, it is regarded as a promising tool for future in vivo applications. In this study, Doppler OCT is utilized for the visualization of the tympanic membrane oscillation in temporal bones with simulated Eustachian catarrh, which was realized by generating a depression in the tympanic cavity. The transfer function, meaning the oscillation amplitude normalized to the applied sound pressure, is measured frequency resolved in the range from 0.5 kHz to 6 kHz and with a lateral spatial resolution of 0.4 mm. Typical oscillation patterns could be observed in case of ambient pressure in the tympanic cavity. Under depression the characteristic oscillation patterns were observed with widely congruent appearance but at higher frequencies. info:eu-repo/classification/ddc/620 ddc:620
344	Study of an array of grating couplers for wireless optical communications Sabouri, S., Namdari, M., Hosseini, S., Jamshidi, K. 05 September 2019 (has links) An array of grating couplers is studied to be used for beam steering in a wireless optical communication system. This structure is designed using a rib waveguide with a silicon thickness of 220nm and an etch depth of 70nm using 2μm silica substrate. TE polarized input light with wavelength of 1550nm is coupled into the feed waveguide. The structure is optimized based on the angular coverage, directed power, and beam efficiency of the radiated main beam of an individual grating coupler. The main beam radiated by optimized grating coupler has a beamwidth of 10.3°×30.7°. The designed 1-D array of the fifteen grating couplers provides tunability in the range of around 30 degrees which is required for a point to pint wireless optical communication transmitter. info:eu-repo/classification/ddc/620 ddc:620
345	Realization of optical multimode TSV waveguides for Si-Interposer in 3D-chip-stacks Killge, S., Charania, S., Richter, K., Neumann, N., Al-Husseini, Z., Plettemeier, D., Bartha, J. W. 06 September 2019 (has links) Optical connectivity has the potential to outperform copper-based TSVs in terms of bandwidth at the cost of more complexity due to the required electro-optical and opto-electrical conversion. The continuously increasing demand for higher bandwidth pushes the breakeven point for a profitable operation to shorter distances. To integrate an optical communication network in a 3D-chip-stack optical through-silicon vertical VIAs (TSV) are required. While the necessary effort for the electrical/optical and vice versa conversion makes it hard to envision an on-chip optical interconnect, a chip-to-chip optical link appears practicable. In general, the interposer offers the potential advantage to realize electro-optical transceivers on affordable expense by specific, but not necessarily CMOS technology. We investigated the realization and characterization of optical interconnects as a polymer based waveguide in high aspect ratio (HAR) TSVs proved on waferlevel. To guide the optical field inside a TSV as optical-waveguide or fiber, its core has to have a higher refractive index than the surrounding material. Comparing different material / technology options it turned out that thermal grown silicon dioxide (SiO2) is a perfect candidate for the cladding (nSiO2 = 1.4525 at 850 nm). In combination with SiO2 as the adjacent polymer layer, the negative resist SU-8 is very well suited as waveguide material (nSU-8 = 1.56) for the core. Here, we present the fabrication of an optical polymer based multimode waveguide in TSVs proved on waferlevel using SU-8 as core and SiO2 as cladding. The process resulted in a defect-free filling of waveguide TSVs with SU-8 core and SiO2 cladding up to aspect ratio (AR) 20:1 and losses less than 3 dB. info:eu-repo/classification/ddc/620 ddc:620
346	Analysis of polymeric singlemode waveguides for inter-system communication Weyers, David, Nieweglowski, Krzysztof, Lorenz, Lukas, Bock, Karlheinz 28 March 2022 (has links) This paper describes simulation, technology- and process development for the manufacturing of single mode polymeric waveguides by photolithography. Simulations for single mode operation in O- and C-band are carried out. Waveguides are directly patterned with UV-photolithography using Ormocere®-material. Fiber to waveguide coupling and near field are characterized. info:eu-repo/classification/ddc/621.3 ddc:621.3
347	Theoretical Investigations of the Photophysical Properties of Chromophoric Metal-Organic Frameworks Batra, Kamal 02 March 2021 (has links) For inorganic semiconductors such as silicon, crystalline order leads to bands in the electronic structure which give rise to drastic differences with respect to disordered materials. Distinct band features lead to photo-effect, and the band structure can be tuned to optimize the performance of the photovoltaic (PV) device. An example is the presence of an indirect band gap. For organic semiconductors, such effects are typically precluded, since most organic materials employed are disordered, which hampers their characterization and theoretical analysis. The inspiration for this thesis came from the very first evidence of an indirect band gap exhibited by highly ordered and crystalline porphyrin-based surface-mounted metal-organic framework (PP-based SURMOF) material [J. Liu et al. Angew. Chem. Int. Ed. 2015, 54, 7441]. The presence of an indirect band gap should in principle result in suppressed charge recombination and efficient charge separations which would significantly enhance the PV device performance. However, the energy gain from the electronic band dispersion in the reported Pd-PP-Zn-SURMOF is far too low (≈5 meV) and results in a very low photocurrent generation (efficiency 0.2%), which is certainly not sufficient for the application. Another noticeable shortcoming is the weakly absorbing Q-bands of the employed PP chromophore (Pd-metal containing porphyrinoid, Pd-PP) in the visible region of the solar spectrum. Nevertheless, this novel research has highlighted the potential to improve the photophysical properties of PP-based SURMOFs by (i) introducing various functional groups or metal ions to the PP-core and (ii) controlling the PP-stacking behavior in layered materials. To overcome the posed shortcomings of the PP-MOF prototype PV material and to exploit the potential of PP-based SURMOFs, we have employed the following approach to increase the light absorption and the electronic band dispersion. Firstly, we proposed a computationally feasible simplified time-dependent approach to investigate the light absorption properties of PP derivatives or related PP-containing materials. Secondly, we predicted the light absorption properties of multi-functionalized PPs (i.e. tuning the weakly absorbing Q-bands), thus allowing us to identify different PP linkers with different light absorption properties, allowing to bridge the so-called green gap. Finally, we incorporated the most promising PP linkers for the construction of SURMOFs and applied state-of-the-art DFT methods in various approximations to optimize the PP-stacking behavior to achieve the desired photophysical properties. Besides PPs, we have extended our investigations to phthalocyanines (PCs) as alternative individual SURMOF building blocks, because they do not only exhibit structural robustness and stability but also possess enhanced absorption in the visible and the near IR spectral regions in comparison to PPs. Hence, the exploitation of PCs could enrich the library of SURMOFs with the desired optical quality. info:eu-repo/classification/ddc/540 ddc:540
348	Multi Criteria Mapping Based on SVM and Clustering Methods Diddikadi, Abhishek 09 November 2015 (has links) There are many more ways to automate the application process like using some commercial software’s that are used in big organizations to scan bills and forms, but this application is only for the static frames or formats. In our application, we are trying to automate the non-static frames as the study certificate we get are from different counties with different universities. Each and every university have there one format of certificates, so we try developing a very new application that can commonly work for all the frames or formats. As we observe many applicants are from same university which have a common format of the certificate, if we implement this type of tools, then we can analyze this sort of certificates in a simple way within very less time. To make this process more accurate we try implementing SVM and Clustering methods. With these methods we can accurately map courses in certificates to ASE study path if not to exclude list. A grade calculation is done for courses which are mapped to an ASE list by separating the data for both labs and courses in it. At the end, we try to award some points, which includes points from ASE related courses, work experience, specialization certificates and German language skills. Finally, these points are provided to the chair to select the applicant for master course ASE. info:eu-repo/classification/ddc/004 ddc:004 info:eu-repo/classification/ddc/005 ddc:005 Worterkennung; Optische Zeichenerkennung Worterkennung, SVM, OCR OCR, SVM, word recognition
349	Time-Frequency Quantum Key Distribution: Numerical Assessment and Implementation over a Free-Space Link Rödiger, Jasper 28 January 2020 (has links) Die Quantenschlüsselverteilung (QKD), die erste anwendbare Quantentechnologie, verspricht informationstheoretisch sichere Kommunikation. In der vorliegenden Arbeit wurde das Zeit-Frequenz (TF)-QKD-Protokoll untersucht, das Zeit und Frequenz, nämlich Puls-Positionsmodulation (PPM) im Zeitbereich und Frequenzumtastung (FSK) im Frequenzbereich als die beiden komplementären Basen verwendet. Seine Sicherheit beruht den Quanteneigenschaften von Licht und auf der Zeit-Frequenz-Unschärferelation. TF-QKD kann mit größtenteils Standard-Telekommunikationstechnologie im 1550-nm-Band implementiert werden. Die PPM-Basis kann mit Modulatoren und die FSK-Basis mit Hilfe der Wellenlängenmultiplex-Technologie realisiert werden. Das TF-QKD-Protokoll ist in der Lage, ein beliebig großes Alphabet bereitzustellen, was mehr als 1 bit/Photon ermöglicht. Darüber hinaus ist es robust gegenüber athmosphärischen Störungen und somit für die Übertragung über den Freiraumkanal geeignet. In der vorliegenden Arbeit wird das TF-QKD-Protokoll theoretisch bewertet, mit Standardkomponenten für 1 bit/Photon implementiert und die Freiraumübertragung mit optischem Tracking über eine 388 m Teststrecke wird bei Tageslicht demonstriert. Unter Verwendung der vorhandenen Komponenten konnte eine sichere Schlüsselrate von 364 kbit/s back-to-back und 9 kbit/s über den Freiraumkanal demonstriert werden. / Quantum key distribution (QKD), the first applicable quantum technology, promises information theoretically secure communication. In the presented work the time-frequency (TF)-QKD protocol was examined, which uses time and frequency, namely pulse position modulation (PPM) in the time domain and frequency shift keying (FSK) in the frequency domain as the two complementary bases. Its security relies on the quantum properties of light and the time-frequency uncertainty relation. TF-QKD can be implemented mostly with standard telecom-technology in the 1550 nm band. The PPM basis can be implemented with modulators and the FSK basis with help of wavelength-division multiplexing technology. The TF-QKD protocol is capable of providing an arbitrarily large alphabet enabling more than 1 bit/photon. Moreover, it is robust in the atmosphere making it suitable for transmission over the free-space channel. In the present work the TF-QKD protocol is assessed theoretically, implemented with off-the-shelf components for 1 bit/photon and free-space transmission with optical tracking over a 388 m testbed is demonstrated in daylight. Using components at hand, secret key rates of 364 kbit/s back-to-back and 9 kbit/s over the free-space channel could be demonstrated. Quantenkryptographie Quantenschlüsselverteilung Quantenschlüsselaustausch Freistrahl-optische Kommunikation QKD quantum cryptography free-space optical communication quantum key distribution 530 Physik UK 8500 ddc:530
350	Simulation winkelabhängiger Lichtstreuung in Gewebephantomen für die Anwendung von optischen Cochlea Implantaten Witke, Tom 19 May 2023 (has links) Diese Arbeit beschäftigt sich mit der Simulation von Streuung und Absorption von elektromagnetischen Wellen in Gewebephantomen im Kontext optischer Cochlea-Implantate. Dabei werden wellen- und strahlenoptische Ansätze diskutiert und auf ihre Eignung für die Modellierung des Streuverhaltens in gewebeähnlichen Schichten untersucht. Im Einzelnen werden FDTD-Simulationen mit einem Mie-Streuprogramm verglichen, sowie Monte-Carlo-Simulationen durchgeführt. Die gewonnenen Daten für Gewebephantome werden mit einem experimentellem Ansatz und Literaturwerten für echtes Gewebe verglichen. Es wird gezeigt unter welchen Parametern die Lichtstreuung optimal für die gewünschte Anwendung in optischen Cochlea-Implantaten ist. Weiterhin ergibt sich, im Rahmen dieser Arbeit, die Monte-Carlo-Simulation in Verbund mit einem Mie-Streuprogramm als die praktikabelste Lösung, um mit Experiment und Literatur vergleichbare Schichtdicken zu simulieren und entsprechende Ergebnisse zu gewinnen. Die Übereinstimmung zwischen Simulationen und experimentellen Daten lies sich für Gewebephantome nachweisen. Weiterhin konnten erste Schlüsse über die Übereinstimmung des Verhaltens dieser Phantome gegenüber echter menschlicher Dermis gezogen werden. / This work addresses the simulation of scattering and absorption of electromagnetic waves in tissue phantoms in the context of optical cochlear implants. Wave-optical and ray-optical approaches are discussed and investigated for their suitability for modeling the scattering behavior in tissue-like layers. Specifically, FDTD simulations are compared with a Mie-scattering program, and Monte Carlo simulations are performed. The obtained data for tissue phantoms will be compared with an experimental approach and literature values for real tissue. It is shown under which parameters the light scattering is optimal for the desired application in optical cochlear implants. Furthermore, in the context of this work, the Monte-Carlo simulation in combination with a Mie-scattering program is most practicable to simulate layer thicknesses comparable to experiment and literature and to obtain the corresponding results. The agreement between simulations and experimental data could be demonstrated for tissue phantoms. Furthermore, first conclusions could be drawn about the agreement of the behavior of these phantoms compared to real human dermis. info:eu-repo/classification/ddc/530 ddc:530

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