@phdthesis{Pfeifer2004,
  author    = {Pfeifer, Thomas},
  title     = {Adaptive control of coherent soft X-rays},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-9854},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2004},
  abstract  = {The availability of coherent soft x-rays through the nonlinear optical process of high-harmonic generation allows for the monitoring of the fastest events ever observed in the laboratory. The attosecond pulses produced are the fundamental tool for the time-resolved study of electron motion in atoms, molecules, clusters, liquids and solids in the future. However, in order to exploit the full potential of this new tool it is necessary to control the coherent soft x-ray spectra and to enhance the efficiency of conversion from laser light to the soft x-ray region in the harmonic-generation process. This work developed a comprehensive approach towards the optimization of the harmonic generation process. As this process represents a fundamental example of \emph{light}--\emph{matter} interaction there are two ways of controlling it: Shaping the generating laser \emph{light} and designing ideal states of \emph{matter} for the conversion medium. Either of these approaches was closely examined. In addition, going far beyond simply enhancing the conversion process it could be shown that the qualitative spectral response of the process can be modified by shaping the driving laser pulse. This opens the door to a completely new field of research: Optimal quantum control in the attosecond soft x-ray region---the realm of electron dynamics. In the same way as it is possible to control molecular or lattice vibrational dynamics with adaptively shaped femtosecond laser pulses these days, it will now be feasible to perform real-time manipulation of tightly bound electron motion with adaptively shaped attosecond light fields. The last part of this work demonstrated the capability of the herein developed technique of coherent soft-x-ray spectral shaping, where a measured experimental feedback was used to perform a closed-loop optimization of the interaction of shaped soft x-ray light with a sulfur hexafluoride molecule to arrive at different control objectives. For the optimization of the high-harmonic-generation process by engineering the conversion medium, both the gas phase and the liquid phase were explored both in experiment and theory. Molecular media were demonstrated to behave more efficiently than commonly used atomic targets when elliptically polarized driving laser pulses are applied. Theory predicted enhancement of harmonic generation for linearly polarized driving fields when the internuclear distance is increased. Reasons for this are identified as the increased overlap of the returning electron wavefunction due to molecular geometry and the control over the delocalization of the initial electronic state leading to less quantum-mechanical spreading of the electron wavepacket during continuum propagation. A new experimental scheme has been worked out, using the method of molecular wavepacket generation as a tool to enhance the harmonic conversion efficiency in `pump--drive' schemes. The latter was then experimentally implemented in the study of high-harmonic generation from water microdroplets. A transition between the dominant laser--soft-x-ray conversion mechanisms could be observed, identifying plasma-breakdown as the fundamental limit of high-density high-harmonic generation. Harmonics up to the 27th order were observed for optimally laser-prepared water droplets. To control the high-harmonic generation process by the application of shaped laser light fields a laser-pulse shaper based on a deformable membrane mirror was built. Pulse-shape optimization resulted in increased high-harmonic generation efficiency --- but more importantly the qualitative shape of the spectral response could be significantly modified for high-harmonic generation in waveguides. By adaptive optimization employing closed-loop strategies it was possible to selectively generate narrow (single harmonics) and broad bands of harmonic emission. Tunability could be demonstrated both for single harmonic orders and larger regions of several harmonics. Whereas any previous experiment reported to date always produced a plateau of equally intense harmonics, it has been possible to demonstrate ``untypical'' harmonic soft x-ray spectra exhibiting ``switched-off'' harmonic orders. The high degree of controllability paves the way for quantum control experiments in the soft x-ray spectral region. It was also demonstrated that the degree of control over the soft x-ray shape depends on the high-harmonic generation geometry. Experiments performed in the gas jet could not change the relative emission strengths of neighboring harmonic orders. In the waveguide geometry, the relative harmonic yield of neighboring orders could be modified at high contrast ratios. A simulation based solely on the single atom response could not reproduce the experimentally observed contrast ratios, pointing to the importance of propagation (phase matching) effects as a reason for the high degree of controllability observed in capillaries, answering long-standing debates in the field. A prototype experiment was presented demonstrating the versatility of the developed soft x-ray shaping technique for quantum control in this hitherto unexplored wavelength region. Shaped high-harmonic spectra were again used in an adaptive feedback loop experiment to control the gas-phase photodissociation reaction of SF\$_6\$ molecules. A time-of-flight mass spectrometer was used for the detection of the ionic fragments. The branching ratios of particular fragmentation channels could be varied by optimally shaped soft x-ray light fields. Although in one case only slight changes of the branching ratio were possible, an optimal solution was found, proving the sufficient technical stability of this unique coherent soft-x-ray shaping method for future applications in optimal control. Active shaping of the spectral amplitude in coherent spectral regions of \$\sim\$10~eV bandwidth was shown to directly correspond to shaping the temporal features of the emerging soft x-ray pulses on sub-femtosecond time scales. This can be understood by the dualism of frequency and time with the Fourier transformation acting as translator. A quantum-mechanical simulation was used to clarify the magnitude of temporal control over the shape of the attosecond pulses produced in the high-harmonic-generation process. In conjunction with the experimental results, the first attosecond time-scale pulse shaper could thus be demonstrated in this work. The availability of femtosecond pulse shapers opened the field of adaptive femtosecond quantum control. The milestone idea of closed-loop feedback control to be implemented experimentally was expressed by Judson and Rabitz in their seminal work titled ``Teaching lasers to control molecules''. This present work extends and turns around this statement. Two fundamentally new achievements can now be added, which are ``Teaching molecules to control laser light conversion'' and ``Teaching lasers to control coherent soft x-ray light''. The original idea thus enabled the leap from femtosecond control of molecular dynamics into the new field of attosecond control of electron motion to be explored in the future. The \emph{closed}-loop approach could really \emph{open} the door towards fascinating new perspectives in science. Coming back to the introduction in order to close the loop, let us reconsider the analogy to the general chemical reaction. Photonic reaction control was presented by designing and engineering effective media (catalysts) and controlling the preparation of educt photons within the shaped laser pulses to selectively produce desired photonic target states in the soft x-ray spectral region. These newly synthesized target states in turn could be shown to be effective in the control of chemical reactions. The next step to be accomplished will be the control of sub-femtosecond time-scale electronic reactions with adaptively controlled coherent soft x-ray photon bunches. To that end a time-of-flight high-energy photoelectron spectrometer has recently been built, which will now allow to directly monitor electronic dynamics in atomic, molecular or solid state systems. Fundamentally new insights and applications of the nonlinear interaction of shaped attosecond soft x-ray pulses with matter can be expected from these experiments.},
  subject      = {Ultrakurzer Lichtimpuls},
  language  = {en}
}
@phdthesis{Dem2003,
  author    = {Dem, Claudiu Dorin},
  title     = {Design and construction of a device for light scattering studies on airborne particles},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-9605},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2003},
  abstract  = {This thesis is concerned with the development of an on-line in-situ device for a chemical characterisation of flowing aerosols. The thesis describes the principles and most important features of such a system, allowing also on-line measurements using Raman spectroscopy as a diagnostic technique An analysis of the effect of forced oscillations on the motion of the particle dispersed in a gas flow is given in Chapter 2. Also the most important particle parameters are introduced. A review of the particle/fluid interaction in laminar air flows and the response of the particle is presented. In Chapter 3 the behaviour of the particle under different external conditions (ion bombardment and electric fields) is extended. A brief review of the most important particle charging theories (diffusion, field, and alternating potential charging) shows, that the effect of the electrical properties (represented by the dielectric constant) of the particles affects the charging process. A non-contact method for particle charge measurement was also presented. In the second part of the chapter, the interaction between the electric field and the charged particle for the purpose of particle trapping is illustrated. The most common systems like the two or four ring electrodynamic balance and the quadrupole trap are pointed out. In Chapter 4 a short review of the possibility of using scattered light to study aerosol particles is presented. First, the conditions and the facilities of using the Mie theory for particle size and refractive index determination are mentioned, then some features concerning the classical treatment of the Raman effect are presented Supported by the theoretical considerations exposed in Chapter 2, 3, and 4 the construction and the tests of different devices are presented in Chapter 5. Following the goal of the thesis, first an overview of the used materials and methods for particle generation is presented. Then, the constructed charging devices are described (from the mechanical and electrical point of view) and compared by measuring the acquired charge on the particle. Charged particles can be trapped in different containers. Two types of axially symmetric electrodynamic balances (two ring or an extended four ring configuration) were presented. For a deeper understanding these systems were studied using analytic and numerical methods. Considering the presented purpose of the work another type of trapping system has been developed, namely the quadrupole trap. A similar theoretical characterisation (in term's of Mathieu equation) as for the electrodynamic balance was presented pointing out some specific features of this system. The incoming particle stream will be focused to the centre of the system simultaneously also the applied DC and AC potential onto the tube electrodes, yields a stable trapping of one or more particles. Chapter 6 consists of two parts: the system for single particle and for many particles investigation. The individual devices presented in Chapter 5 are now put together. The first part presents the method and the experimental realisation of a set-up for solid particle injection. In order to suppress the phase injection disadvantage found for the electrodynamic balance a developed program processes the information obtained from a particle cloud through an adequate electronic detection system, and reduces the number of particles until just one single particle is trapped. The method for one particle investigation can be extended for many particles. Using the presented set-up the particles are moved from one quadrupole to another and transformed from a particle cloud to a particle stream. A linearity between an external vertical mounted detector and the formed image of the particle stream on the CCD camera has been observed and used for simultaneous detection of many particles by Raman spectroscopy. For both methods Raman results are presented. One limitation of Raman Spectroscopy is the relatively long integration time needed for adequate signal-to-noise ratio. There are two factors which influence the integration time: first the incident radiation and the detector sensitivity, and second the intensity of the Raman bands. Using a CCD detector, the desired detector sensitivity should be achieved. So, the improvement of the signal-to-noise ratio should be the next goal in the system development. In order to reduce the integration time an optical system including optic fibres and the integration of an FT-Raman module operating in the visible region is planed. The goal of this work was to develop and construct an instrument for on-line in-situ single particle investigation by Raman spectroscopy. With the presented experimental set-up and the developed program the purpose of the work, the on-line in-situ near atmospheric pressure aerosol investigation was achieved. The Raman spectroscopy has been used successfully for a chemical characterisation of the aerosol particles.},
  subject      = {Aerosol},
  language  = {en}
}
@phdthesis{Baumeister2004,
  author    = {Baumeister, Joachim},
  title     = {Agile development of diagnostic knowledge systems},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-9698},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2004},
  abstract  = {The success of diagnostic knowledge systems has been proved over the last decades. Nowadays, intelligent systems are embedded in machines within various domains or are used in interaction with a user for solving problems. However, although such systems have been applied very successfully the development of a knowledge system is still a critical issue. Similarly to projects dealing with customized software at a highly innovative level a precise specification often cannot be given in advance. Moreover, necessary requirements of the knowledge system can be defined not until the project has been started or are changing during the development phase. Many success factors depend on the feedback given by users, which can be provided if preliminary demonstrations of the system can be delivered as soon as possible, e.g., for interactive systems validation the duration of the system dialog. This thesis motivates that classical, document-centered approaches cannot be applied in such a setting. We cope with this problem by introducing an agile process model for developing diagnostic knowledge systems, mainly inspired by the ideas of the eXtreme Programming methodology known in software engineering. The main aim of the presented work is to simplify the engineering process for domain specialists formalizing the knowledge themselves. The engineering process is supported at a primary level by the introduction of knowledge containers, that define an organized view of knowledge contained in the system. Consequently, we provide structured procedures as a recommendation for filling these containers. The actual knowledge is acquired and formalized right from start, and the integration to runnable knowledge systems is done continuously in order to allow for an early and concrete feedback. In contrast to related prototyping approaches the validity and maintainability of the collected knowledge is ensured by appropriate test methods and restructuring techniques, respectively. Additionally, we propose learning methods to support the knowledge acquisition process sufficiently. The practical significance of the process model strongly depends on the available tools supporting the application of the process model. We present the system family d3web and especially the system d3web.KnowME as a highly integrated development environment for diagnostic knowledge systems. The process model and its activities, respectively, are evaluated in two real life applications: in a medical and in an environmental project the benefits of the agile development are clearly demonstrated.},
  language  = {en}
}
@phdthesis{Rueter2004,
  author    = {R{\"u}ter, Katja},
  title     = {The efficiency of routine standards in social comparison},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-9448},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2004},
  abstract  = {One primary source for self-knowledge is social comparison. Often objective criteria for self-evaluations are not available or useful and therefore comparisons with other people play a crucial role in self-evaluations. But the question is whether social comparisons could indeed provide information about the self without consuming too much cognitive resources or time. Therefore, in this research I wanted to look at practice effects in social comparison and the particular significance of routine standards. Whereas traditional research on standard selection mostly focused on goal-oriented and strategic standard selection processes, this research sets out to integrate social cognitive knowledge, ideas, and methods. Researchers from many different fields agree that people's behavior and thinking is not fully determined by rational choices or normative considerations. Quite the contrary, factors like knowledge accessibility, habits, procedural practice, stereotyping, categorization, and many more cognitive processes play an important role. The same may be true in social comparison and standard selection. In my research I demonstrate that efficiency concerns play an important role in social comparison. Since people may not be able to engage in a strategic standard selection whenever they engage in social comparison processes, there has to be a more efficient alternative. Using routine standards would be such an alternative. The efficiency advantage of routine standards may thereby be founded not only in the abandonment of a strategic but arduous standard selection process, but also in a higher efficiency of the comparison process itself. I therefore set out to show how the use of routine standards facilitates the social comparison processes. This was done in three steps. First, I replicated and improved our former research (Mussweiler \& R{\"u}ter, 2003, JPSP) indicating that people really do use their best friends as routine standards to evaluate themselves. Second, I demonstrated that it is more efficient to compare with a routine standard than with another standard. In Studies 2 and 3 I therefore show that comparisons between the self and a routine standard (either a natural routine standard like the best friend or a experimentally induced routine standard based on practice) are faster and more efficient than comparisons with other standards. Finally, I looked at the underlying mechanism of the efficiency advantage of routine standards. The results of Studies 4 and 5 point out, that both general as well as specific practice effects occur with repeated comparisons. Whereas a specific practice effect implies the repeated processing of the same content (i.e., knowledge about the routine standard), general practice effects indicate that the pure process (i.e., comparing the self with a routine standard) becomes more efficient regardless whether new content (i.e., comparison relevant knowledge) has to be processed. Taken together, the efficiency advantage of routine standards during self-evaluation is based not only on the lack of necessity for an arduous standard selection, but is additionally supported by the facilitation of the comparison process itself. The efficiency of routine standards may provide an explanation as to why people base self-evaluations on comparisons with these standards and dispense with strategic considerations to select the most suitable standard.},
  language  = {en}
}
@phdthesis{Tyrsin2003,
  author    = {Tyrsin, Oleg},
  title     = {Role of Raf family members in mouse development},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-9453},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2003},
  abstract  = {Raf Proteine sind Serin/Threonin Kinasen, die als zentrale Elemente des Ras, Raf, Mek, Map Kinase Wegs, an der Weiterleitung von extrazellul{\"a}ren Signalen von der Zellmembran zu nukle{\"a}ren Effektoren beteiligt sind. Auf diese Weise kontrollieren sie elementare Prozesse wie Proliferation, Differenzierung und das {\"U}berleben von Zellen. In S{\"a}ugetieren wurden drei funktionelle Gene (A-, B- and C-raf) beschrieben. Aus biochemischen Untersuchungen ergibt sich, dass die Isozyme {\"u}berlappende aber auch differentielle Funktionen {\"u}bernehmen. Allerdings wurde ein differenziertes Verst{\"a}ndnis der jeweiligen spezifischen Rolle dadurch erschwert, dass in den meisten Zelltypen verschiedene Raf-Isozyme expremiert werden und dass wegen der Vielzahl der Aktivatoren und Effektoren eine eindeutige Isoform-Zuordnung schwer m{\"o}glich war. Aufgrund der Beteiligung an verschiedenen Krankheitsbildern, insbesondere der Tumorentstehung und -progression, ist jedoch die Aufkl{\"a}rung der Isozym-spezifischen Funktionen von vorranginger wissenschaftlicher Bedeutung. B-Raf hat unter den Raf Kinasen die h{\"o}chste Kinaseaktivit{\"a}t und zeigt antiapoptotische Eigenschaften. B-Raf knockout M{\"a}use zeigen eine allgemeine Wachstumsverz{\"o}gerung und sterben zwischen E10,5 und E12,5 aufgrund fehlentwickelter Gef{\"a}sse in Folge massiver Apoptose differenzierter Endothelzellen. [1]. Um die Lethalit{\"a}t des B-Raf-/- (KO) Ph{\"a}notyps zu {\"u}berkommen und um die Redundanz der B-Raf Proteine weiter zu untersuchen, wurden M{\"a}use generiert, die unter der Kontrolle des B-Raf Promoters statt B-Raf eine A-Raf cDNA exprimieren. Nur in einem Fall entwickelte sich eine ausgewachsene p20 Maus ohne sichtbare Entwicklungsdefekte oder Verhaltensauff{\"a}lligkeiten. Dar{\"u}ber hinaus wurden lebende Embryonen mit normaler Entwicklung aber reduzierter Gr{\"o}sse mit niedriger Inzidenz zwischen E12,5d und E16,5d beobachtet. In allen diesen F{\"a}llen fanden wir ein intaktes Gef{\"a}ßsystem. Andererseits waren Neurogenese und die Bewegung der neuralen Vorl{\"a}uferzellen in den {\"u}berlebenden Embryonen gest{\"o}rt, was in einigen F{\"a}llen zu unterentwickelten Hirnregionen f{\"u}hrte. Mittels TUNEL bzw. PCNA Assay konnten wir zeigen, dass mehr apoptotische und weniger proliferierende Zellen in ventrikul{\"a}rer und subventrikul{\"a}rer Zone der Hirn Ventrikel und im Striatum der KIN Embryonen zu finden sind. Außerdem wurden in einer Reihe von Geweben von E13,5d und in den Lungen von E16,5d Embryonen, vermehrt apoptotische Zellen beobachtet. Dies war in der einen ausgewachsenen KIN Maus nicht der Fall. Diese zeigte einen reduzierten Anteil an neuronalen Vorl{\"a}uferzellen in der subgranul{\"a}ren Zone des Hippocampus und an reifen Neuronen im Riechkolben. Ansonsten waren aber keine St{\"o}rungen der Neurogenese in der ausgewachsenen KIN Maus detektierbar. Fibroblasten die aus KIN Embryonen etabliert wurden, zeigten im Vergleich zu Wildtypzellen reduzierte F{\"a}higkeit zur Proliferation und erh{\"o}hte Sensibilit{\"a}t gegen{\"u}ber Apoptoseausl{\"o}sern. Die erh{\"o}hte Apoptosetendenz spiegelte sich auf molekularer Ebene in einer Reduktion an antiapoptotischen Molek{\"u}len wieder. Aktive ERK und Akt Kinase sind erniedrigt. Außerdem war von dem bekannten Raf Substrat BAD, weniger an der inaktiven phosphorylierten Form zu beobachten, wodurch bei gleicher Menge Gesamtprotein auf ein Mehr an proapoptotischem unphosphoryliertem BAD geschlossen werden kann. Zusammengefasst zeigen diese Daten, dass die Substitution von B-Raf durch die weniger aktive A-Raf Kinase zwar die endotheliale Apoptose verhindern kann, die die Ursache f{\"u}r das fr{\"u}he Absterben der B-Raf-/- (KO) M{\"a}use ist, dass aber die normale Entwicklung dennoch entscheidend gest{\"o}rt ist.},
  subject      = {Maus},
  language  = {en}
}
@phdthesis{Kahlenberg2004,
  author    = {Kahlenberg, Frank},
  title     = {Structure-property correlations in fluoroaryl functionalized inorganic-organic hybrid polymers for telecom applications},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-9378},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2004},
  abstract  = {The development and in-depth characterization of new fluoroaryl functionalized ORMOCER® materials (inorganic-organic hybrid polymers) for optical waveguide applications in telecommunication is presented. The preparation of the materials included precursor silane synthesis, hydrolysis/polycondensation of organoalkoxysilane mixtures, and photolithographic processing of the resulting oligosiloxane resins in order to establish the inorganic-organic hybrid network. During all stages of ORMOCER® preparation, structure-property relations were deduced from characterization data, particularly with respect to low optical loss in the important near-infrared spectral region as well as refractive index. With the aid of molecular modeling, structural characteristics of oligomeric intermediates were visualized, which was found valuable in the fundamental understanding of the material class. The material development started with the syntheses of a variety of commercially unavailable fluorinated and unfluorinated arylalkoxysilanes by means of Grignard and hydrosilylation pathways, respectively. A survey of silane optical properties, particularly their absorptions at the telecom wavelengths 1310 nm and 1550 nm, gave an impulse to the choice of suitable precursors for the preparation of low-loss ORMOCER® resins. Accordingly, precursor silane mixtures and hydrolysis/polycondensation reaction conditions were chosen and optimized with regard to low contents of C-H and Si-OH functions. Thus, absorptions as low as 0.04 dB/cm at 1310 nm and 0.18 dB/cm at 1550 nm, respectively, could be obtained from an oligosiloxane resin based on pentafluorophenyltrimethoxysilane (1) mixed with pentafluorophenyl(vinyl)-dimethoxysilane (5). In order to improve the organic crosslinkability under photolithographic processing conditions, further resins on the basis of the aforementioned were prepared, which additionally incorporated the styrene-analogous precursor 4-vinyltetrafluorophenyl-trimethoxysilane (4). Thus, ORMOCER® resins with low optical losses of 0.28 dB/cm at 1310 nm and 0.42 dB/cm at 1550 nm, respectively, were prepared, which exhibited excellent photopatternability. The manufacture of micropatterns such as optical waveguide structures by UV-photolithography under clean room conditions was the final stage of material synthesis. The optimization of processing parameters allowed the preparation of test patterns for the determination of optical, dielectrical and mechanical properties. A low optical loss of 0.51 dB/cm at 1550 nm could be measured on a waveguide manufactured from a photopatternable fluoroaryl functionalized ORMOCER®. The structural characterization of liquid resins as well as cured ORMOCER® samples was accomplished chiefly with solution and solid state 29Si-NMR spectroscopy, respectively. Particularly for polycondensates incorporating species based on more than one precursor silane, the spectra showed a high degree of complexity. An additional challenge arouse from the partial loss of fluoroaryl groups during ORMOCER® condensation and curing, which resulted in even more condensation products. Thus, in order to provide a basis for resin analysis, first the hydrolysis/condensation reactions of the isolated precursors were investigated under reaction time-resolution with NMR spectroscopy at low temperature. Backed by signal assignments in these single-precursor systems, the respective species could also be identified in the complex resin spectra, allowing for their quantitative interpretation. The structural characterization was rounded out by IR spectroscopy and SAXS analyses. With the help of molecular modeling, the experimental data were finally transferred into a three-dimensional image of an organosiloxane oligomer, which is representative for a photopatternable fluoroaryl functionalized ORMOCER® resin. The combination of low-temperature NMR, which made the characterization of polycondensates possible, with oligomer modeling paved the way to a further understanding of ORMOCER® resin systems. On the basis of this visualization of structural characteristics, e.g. properties such as organic crosslinkability of oligomers were discussed in the light of steric features within the molecular structure. Thus, new possibilities were established for the systematic optimization of ORMOCER® formulations. Structure-property relations with respect to optical loss and refraction, as determined within this work, follow trends, which are in accordance with the literature. Particularly the direct comparison of data derived from analogous fluorinated and unfluorinated ORMOCER® resins showed that fluorination results in significant decrease in NIR optical loss. Additionally, different unfluorinated aryl functionalized systems with varying aliphatic C-H content were compared. In case of a lower aliphatic content, a widening effect on the 1310 nm window was found. This is due to a shift of arylic C-H vibrations (1145 nm) towards lower wavelengths compared to aliphatic C-H (1188 nm). Finally, on the basis of NIR spectra of analogous fluorinated resins with low and high silanol content, respectively, a significant impact of (Si)O-H groups on the 1550 nm window was demonstrated, while the 1310 nm window was unaffected. This is due to O-H vibrations with a maximum at 1387 nm and further bands at higher wavelength. The index of refraction was drastically lowered due to fluorination. Thus, the analogous fluorinated and unfluorinated ORMOCER® resins had indices of 1.497 and 1.570, respectively, in the VIS region. For the fluorinated systems, refraction did not change significantly during organic cross-connection and hardbake. In conclusion, the new fluoroaryl functionalized ORMOCER® systems represent low-loss materials for telecom applications. In addition, in-depth characterization during material development allowed the proposal of structure-property relations, particularly with respect to optical properties, which are of considerable importance for future developments.},
  subject      = {Ormocer},
  language  = {en}
}
@phdthesis{Tarcea2004,
  author    = {Tarcea, Nicolae},
  title     = {Light as a universal tool : Microcapsule sizing by elastic light scattering and mineral investigation by in situ Raman spectroscopy},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-9383},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2004},
  abstract  = {The present work consist of two major parts. The first part, extending over chapters 1, 2, 3 and 4, addresses the design and construction of a device capable of determining the shell thickness and the core size for monolayer spherical particles in a flow. The second part containing chapters 5, 6, 7, 8, 9 and 10, concentrate on the use of Raman spectroscopy as a space application, namely for use as a tool for in situ planetary investigations. This part directly addresses the MIRAS project, a study run under the auspices of Federal Ministry of Education and Research, BMBF and German Aerospace Center, DLR under national registration number 50OW0103. MIRAS stands for "Mineral Investigation by in situ Raman Spectroscopy". Microcapsule Sizing by Elastic Light Scattering The industrial development of processes based on microcapsules depends on the possibility to provide clear and complete information about the properties of these microcapsules. However, the tools for an easy and efficient determination of the microcapsule properties are lacking, several methods being often required to describe adequately the microcapsule behavior. Methods for evaluating the individual size and size distribution of both the core and the shell are required together with methods for measuring the mechanical strength, stability in appli-cation media, permeability of the shell, etc. Elastic light scattering measurements provide a possible way of determining properties such as core size, shell size and refractive index. The design and con-struction of a device capable of measuring the above mentioned parameters for a core-shell particle is the subject of the first part of this thesis. The basic principle of measurement for the device proposed here consists of an-alyzing one particle at a time by recording the elastic light scattering pattern at angles between approx. 60 and 120 grad. By comparing the experimentally recorded phase functions with the previously calculated phase functions stored in a database, the geometry of the scattering object can be identified. In our case the geometry is characterized by two parameters: the shell thickness and the core radius. In chapter 2 a short overview on the methods used for sizing microparticles is given. Different sizing methods are compared, and the advantages and disadvan-tages for the general problem of sizing are shortly discussed. It is observed that all sizing methods that are based on elastic light scattering theories are ensemble methods. Chapter 3 focusses on the theories used for calculating the theoretical scattering patterns with emphasize on the Mie theory. The generalization of Mie theory for layered particles is shortly presented and the far field intensity approximations are discussed. The last chapter (4) of this first part describes the experimental approach for building an automatic microcapsule sizer. The approach started by O. Sbanski [76] with the development of a software packet for calculating and storing theoret-ical phase functions for core-shell particles was continued with the designing and construction of a measuring device. The hardware construction and the software with all implemented corrections imposed by the individual setup components are described in detail. For the laser, the monochromaticity, the intensity profile of the beam as well as the planarity of the equi-phase fronts are taken into consid-eration. The flow cell with three different designs is described, and the influences of the employed design on the light scattering patterns are discussed together with the optical system used for recording the experimental phase functions. The detection system formed by two identical linear CCD arrays is presented together with the software approach used for data acquisition. Ways of improving the quality and the speed of the analyzing process are discussed. The final section presents measurements run on samples made of homogeneous spheres and also on samples containing industrial microcapsules. Mineral Investigation by in situ Raman Spectroscopy The envisaged future planetary missions require space-born instruments, which are highly miniaturized with respect to volume and mass and which have low needs of power. A micro Raman spectrometer as a stand alone device on a planetary surface (e.g. Mars) offers a wide spectrum of possibilities. It can assess the chemical analysis via determination of the mineral composition, detect organic molecules in the soil, identify the principal mineral phases, etc. The technical developments in the last years have introduced a new generation of small Raman systems suitable for robotic mineral characterization on planetary surfaces [20, 95]. Two different types of spectrometer were considered for the MIRAS study. As supporting laboratory experiments for the MIRAS study, the measure-ments on standard minerals and on SNC Mars meteorites are discussed in chapter 6. The following SNC meteorites have been investigated: Sayh al Uhaymir 060, Dar al Gani 735, Dar al Gani 476, Northwest Africa 856, Los Angeles, Northwest Africa 1068 and Zagami. Pyrite as a hitherto undescribed phase in the picritic (olivin-phyric) shergottite NWA 1068 as well as reduced carbon (e.g. graphite) and anatase in the shergottite Say al Uhaymir 060 are new findings for this class of meteorites. A detailed description of the proposed designs for MIRAS, with the compo-nents used for building the test version on a breadboard is covered in chapter 7. The scientific as well as the mission requirements imposed on the instrument are discussed. The basic design is presented and the main components that are brought together to build the device being the laser unit, the Raman head, the Rayleigh filtering box, and the spectral sensor (spectrometer with a matching de-tector) are described. The two proposed designs, one based on an acousto-optic tunable filter (AOTF) and the other based on a dispersive hadamard transform spectrometer are compared to each other. The actual breadboard setup with the detailed description of the components follows in Section 7.3. Further de-velopment of a Raman spectrometer for planetary investigations is proposed in combination with a microscope as part of the Extended-MIRAS project. The software developed for controlling the breadboard version of MIRAS is described in chapter 8 together with a short description of the structure of a relational database used for in house spectra management. The measuring pro-cedures and the data processing steps are presented. Spectra acquired with the MIRAS breadboard version based on the AOTF are shown in chapter 9. The final chapter addresses a rather different possibility of using Raman spectroscopy for planetary investigations. The chapter summarizes the content of four tech-nical notes that were established within the study contracted by the European Space Agency with firma Kayser-Threde in Munich concerning the possibility of applying Raman spectroscopy in the field of remote imaging.},
  language  = {en}
}
@phdthesis{Geiger2004,
  author    = {Geiger, Lars},
  title     = {The versatile use of Guanidiniocarbonylpyrroles : from self-assembly to peptide recognition},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-9272},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2004},
  abstract  = {Die vorliegende Arbeit gliedert sich in zwei Themenschwerpunkte. Ein supramolekulares Projekt beinhaltete die Entwicklung von neuen flexiblen, selbst-aggregierenden Zwitterionen als Bausteine f{\"u}r supramolekulare Polymere. In einem zweiten bioorganischem Teil bestand das Ziel darin, Rezeptoren f{\"u}r Aminos{\"a}uren und Dipeptide in Wasser zu entwickeln. Beide Projekte basieren auf dem Guanidiniocarbonylpyrrol als effizientes Bindungsmotiv f{\"u}r die Komplexierung von Carboxylaten in w{\"a}ssrigen L{\"o}sungen. Eine notwendige Voraussetzung f{\"u}r die Realisierung dieser Projekte war jedoch zun{\"a}chst die Entwicklung einer allgemeinen, effizienten und milden Synthese f{\"u}r Guanidiniocarbonylpyrrole. Die bei der zuvor verwendeten Methode aggressiven Reaktionsbedingungen und die problematische Aufreinigung verhinderten eine gr{\"o}ßere Anwendung dieses Bindungsmotivs in bioorganischen und supramolekularen Projekten. Im Rahmen dieser Arbeit gelang es mir erfolgreich eine neue Syntheseroute zu entwickeln. Hierbei wurde mono-tBoc-Guanidine mit dem Benzylester mittels PyBOP gekuppelt und nach Entsch{\"u}tzung der Benzylschutzgruppe wurde die zentrale Zwischenstufe f{\"u}r die weiteren Synthesen, die tBoc-gesch{\"u}tzte Guanidinocarbonylpyrrol-S{\"a}ure erhalten. Durch diese neuartige Synthese war es m{\"o}glich, eine Reihe von flexiblen Zwitterionen 3-6 herzustellen und deren Selbst-Aggregation und den Einfluß der Kettenl{\"a}nge und somit Flexibilit{\"a}t der Alkylkette auf Struktur und Stabilit{\"a}t der gebildeten Aggregate in L{\"o}sung sowie auch in der Gasphase zu untersuchen. In DMSO deuten NMR-Verd{\"u}nnungsreihen darauf hin, dass die flexiblen Zwitterionen mit n = 1, 3 und 5 oligomere Strukturen ausbilden. Im Falle von n = 1 werden hoch stabile helicale und Nanometer große Aggregate in der gebildet. In den Gasphasen-Studien wurde die Stabilit{\"a}t und Zerfallskinetik einer Reihe von Natriumaddukten der Dimere von n = 2, 3 und 5 untersucht. Dieses gelang durch die Methode der „infrared multiphoton dissociation Fourier transform ion cyclotron resonance mass spectrometry" (IRMPD-FT-ICR MS). Solche Studien erm{\"o}glichen m{\"o}glicherweise in Zukunft das gezielte Design von supramolekularen Bausteinen. Der bioorganische Teil meiner Arbeit setzte sich aus drei Einzelprojekten zusammen. So synthetisierte ich durch eine f{\"u}nfstufige Synthesesequenz vier neue Arginin-Analoga, die in Zukunft als Ersatz f{\"u}r Arginin in Peptide eingebaut werden k{\"o}nnen. Als Testreaktion f{\"u}r die Eignung dieser Verbindungen in einer Festphasenpeptidsynthese, wurde ein Tripetid Ala-AA1-Val (AA: Arginin-Analogon) mit einem eingebauten Arginin-Analogon erfolgreich hergestellt. In einem zweiten Projekt habe ich den Einfluß einer zus{\"a}tzlichen ionischen Wechselwirkung in unserem Bindungsmotiv untersucht. Dazu wurde ein zweifach-kationischer Rezeptor und der dreifach-geladenen Rezeptor synthetisiert und physikalisch-organisch ihre Bindungseigenschaften mit Hilfe von NMR-Titrationsexperimenten gegen eine Reihe von Aminos{\"a}uren untersucht. Der dreifach-kationische Rezeptor 11 zeigte hierbei herausragende Bindungseigenschaften und war um ca. den Faktor 100 besser als f{\"u}r die bisher bekannten Guanidiniocarbonylpyrrole. Die Assoziationskonstanten waren auch fast reinem Wasser mit bis zu Kass = 2000 noch bemerkenswert hoch. Im dritten Projekt habe ich einen de-novo entwickelten Rezeptor f{\"u}r C-terminale Dipeptide in einer beta-Faltblatt Struktur entwickelt.Dieser Rezeptor wurde mittels NMR and UV-Titrationen untersucht. In 40 \% Wasser/ 60 \% DMSO waren die Bindungskonstanten zu hoch um {\"u}berhaupt quantifiziert zu werden. Deshalb wurden die Bindungseigenschaften des Rezeptors mittels UV Titrationen in einer Mischung aus 90 \% Wasser mit 10 \% DMSO gegen eine Reihe von Dipeptiden und Aminos{\"a}uren getestet. Die Bindungsdaten zeigen, dass Rezeptor Dipeptide mit ausgezeichneten Bindungskonstanten (Kass > 10000 M-1) komplexiert. Im Gegensatz dazu bindet der Rezeptor 12 Aminos{\"a}uren um den Faktor zehn schlechter (Kass > 1000 M-1). Die Komplexstabilit{\"a}t nimmt hierbei in Abh{\"a}ngigkeit von der Seitenkette des Dipeptids in der Reihe Gly < Ala < Val zu, was sich mit der abnehmenden Flexibilit{\"a}t und zunehmenden Hydrophobizit{\"a}t der Seitenkette erkl{\"a}ren l{\"a}sst. Diese Eigenschaften machen den Rezeptor 12 zu dem besten bisher bekannten Dipeptidrezeptor in w{\"a}ssrigen L{\"o}sungen. Innerhalb meiner Arbeit gelang es mir somit, nicht nur eine essentiell wichtige, milde und effiziente Synthese f{\"u}r Guanidinocarbonylpyrrole zu entwickeln, sondern es gelang mir ebenso ein neues Bindungsmotiv f{\"u}r die Komplexierung von Aminos{\"a}uren in Wasser zu entwickeln. Zus{\"a}tzlich konnte noch der Dipeptidrezeptor erfolgreich synthetisiert und untersucht werden. Mit Bindungskonstanten f{\"u}r von Kass > 10000 M-1 ist er der derzeit beste Dipeptidrezeptor in w{\"a}ssriger L{\"o}sung.},
  subject      = {Guanidinderivate},
  language  = {en}
}
@phdthesis{Planchet2004,
  author    = {Planchet, Elisabeth},
  title     = {Nitric oxide production by tobacco plants and cell cultures under normal conditions and under stress},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-9339},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2004},
  abstract  = {Stickstoffmonoxid (NO) ist ein gasf{\"o}rmiges freies Radikal. In tierischen Geweben ist NO an der Regulation vieler physiologischer Prozesse beteiligt. In den letzten zehn Jahren wurde immer wahrscheinlicher, dass NO auch in Pflanzen als „second messenger" fungiert. Besonderes Interesse fanden Berichte, dass NO als intermedi{\"a}res Signal bei der Induktion der hypersensitiven Antwort (HR) von Pflanzen auf Pathogene involviert ist. Im Gegensatz zu Tieren haben Pflanzen wahrscheinlich eine Reihe verschiedener Systeme, die NO produzieren k{\"o}nnen. Potentielle Kandidaten daf{\"u}r sind: cytosolische Nitratreduktase (NR; EC 1.6.6.1), PM-gebundene Nitrit: NO Reduktase (Ni:NOR), NO-Synthase (NOS; EC 1.14.13.39) und Xanthindehydrogenase (XDH; EC 1.1.1.204). Das Ziel dieser Arbeit bestand darin, die NO-Produktion von Pflanzen zu quantifizieren und die beteiligten enzymatischen Schritte zu identifizieren. Als wichtigste Methode zur NO-Messung wurde die Chemilumineszenz verwendet, mit der die NO Emission aus Pflanzen, Zellsuspensionen oder Enzyml{\"o}sungen in NO-freie Luft oder N2 in Echtzeit verfolgt werden konnte. Wir benutzten f{\"u}r unsere Analyse: Tabak Wildtyp (N. tabacum cv Xanthi oder cv Gatersleben) und Zellsuspensionskulturen davon, NR-freie Mutanten oder WT Pflanzen, die auf Ammonium angezogen wurden um NR-Induktion zu vermeiden, Pflanzen die auf Wolframat an Stelle von Molybdat wuchsen um die Synthese funktionierender MoCo-Enzyme zu unterdr{\"u}cken, und eine NO-{\"u}berproduzierende, Nitritreduktase (NiR)-defiziente Transformante. Normale Bl{\"a}tter von nitratern{\"a}hrten Pflanzen zeigten eine typisches NO-Emissionsmuster,bei dem die NO-Emission im Dunkeln niedrig, im Licht viel h{\"o}her, und unter anoxischen Bedingungen im Dunkeln mit weitem Abstand am h{\"o}chsten war. Aber selbst nach Erreichen maximaler Raten war die NO-Emission h{\"o}chstens 1 \% der extrahierbaren NR Aktivit{\"a}t. Auch eine L{\"o}sung hochgereinigter Nitratreduktase produzierte NO aus den Substraten Nitrit und NADH, und auch hier war die Rate der NO-Emission nur maximal 1\% der vorhandenen NR-Aktivit{\"a}t. Dieses {\"u}bereinstimmende Verh{\"a}ltnis von NR Aktivit{\"a}t und NO-Emission in Bl{\"a}ttern, Zellsuspensionen und einer NR-L{\"o}sung zeigt an dass die NO-L{\"o}schung nur gering war und dass deshalb die NO-Emissionsmessung eine zuverl{\"a}ssige Methode zur Quantifizierung der NO Produktion sein sollte. Die NO-Emission aus einer NiR-defizienten, nitritakkumulierenden Transformante warimmer sehr hoch. NR-freie Pflanzen oder Zellsuspensionen produzierten dagegen normalerweise kein NO, woraus geschlossen werden konnte, dass hier NR die einzige NOQuelle war. Die Rate war in der Regel korreliert mit der Nitritkonzentration, aber cytosolisches NADH erschien als ein weiterer wichtiger limitierender Faktor.{\"U}berraschenderweise reduzierten aber auch NR-freie Pflanzen oder Zellkulturen unter anoxischen Bedingungen Nitrit zu NO. Das beteiligte Enzymsystem war kein MoCo-Enzym und war Cyanid-sensitiv. Der pilzliche Elicitor Cryptogein induzierte nach Infiltration in Bl{\"a}tter oder nach Zugabe zu Zellsuspensionen bereits in nanomolaren Konzentrationen den Zelltod. Diese Antwort wurde verhindert oder zumindest stark verz{\"o}gert durch den NO-Scavenger PTIO oder c-PTIO. Die Schlussfolgerung war zun{\"a}chst, das NO tats{\"a}chlich an der HR-Induktion involviert war. Da aber das Reaktionsprodukt von c-PTIO und NO, c-PTI, den HR ebenfalls verhinderte ohne jedoch NO zu l{\"o}schen, scheint die weit verbreitete Verwendung von c-PTIO und seinen Derivaten f{\"u}r die Beweisf{\"u}hrung einer Beteiligung von NO zumindest fragw{\"u}rdig. Der HR wurde unterschiedslos sowohl in WT-Pflanzen als auch in NR-freien Pflanzen bzw. Zellsuspensionen induziert. NR ist also offensichtlich f{\"u}r den HR nicht erforderlich. Im Gegensatz zur publizierten Literaturdaten verhinderte auch eine kontinuierliche hohe {\"U}berproduktion von NO die Auspr{\"a}gung des HR nicht. Besonders {\"u}berraschend war der Befund, dass trotz der Hemmung des HR durch PTIO keinerlei Cryptogein-induzierte NO Produktion in Bl{\"a}ttern messbar war. Allerdings wurde in nitratern{\"a}hrten Zellsuspensionskulturen ca. 3-6 h nach Cryptogein-Gabe eine -wenn auch geringe-NOEmission beobachtet, die von einer Nitritakkumulation begleitet war. Beides blieb in Ammonium-ern{\"a}hrten Kulturen aus. Hier schien also eine gewisse Relation zwischen Cryptogein-induzierter NO Emission, NR und Nitrit zu bestehen, die im Detail noch nicht verstanden ist. Da der Zelltod aber auch in NR-freien Zellsuspensionskulturen auftrat, besteht offensichtlich kein kausaler Zusammenhang zwischen dieser NO-Emission, Nitritakkumulation und der Cryptogein-Wirkung. Da NOS-Inhibitoren weder den Zelltod noch die nitritanh{\"a}ngige NO-Emission verhinderten, scheint eine NOS-artige Aktivit{\"a}t ebenfalls keine Rolle zu spielen. Insgesamt werden damit die in der Literatur etablierte Rolle von NO als Signal beim HR und die Rolle von NOS als NO-Quelle stark in Frage gestellt.},
  subject      = {Tabak},
  language  = {en}
}
@phdthesis{Kraus2003,
  author    = {Kraus, Daniela},
  title     = {Conformal pseudo-metrics and some applications},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-9193},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2003},
  abstract  = {The point of departure for the present work has been the following free boundary value problem for analytic functions \$f\$ which are defined on a domain \$G \subset \mathbb{C}\$ and map into the unit disk \$\mathbb{D}= \{z \in \mathbb{C} : |z|<1 \}\$. Problem 1: Let \$z_1, \ldots, z_n\$ be finitely many points in a bounded simply connected domain \$G \subset \mathbb{C}\$. Show that there exists a holomorphic function \$f:G \to \mathbb{D}\$ with critical points \$z_j\$ (counted with multiplicities) and no others such that \$\lim_{z \to \xi} \frac{|f'(z)|}{1-|f(z)|^2}=1\$ for all \$\xi \in \partial G\$. If \$G=\mathbb{D}\$, Problem 1 was solved by K?nau [5] in the case of one critical point, and for more than one critical point by Fournier and Ruscheweyh [3]. The method employed by K?nau, Fournier and Ruscheweyh easily extends to more general domains \$G\$, say bounded by a Dini-smooth Jordan curve, but does not work for arbitrary bounded simply connected domains. In this paper we present a new approach to Problem 1, which shows that this boundary value problem is not an isolated question in complex analysis, but is intimately connected to a number of basic open problems in conformal geometry and non-linear PDE. One of our results is a solution to Problem 1 for arbitrary simply connected domains. However, we shall see that our approach has also some other ramifications, for instance to a well-known problem due to Rellich and Wittich in PDE. Roughly speaking, this paper is broken down into two parts. In a first step we construct a conformal metric in a bounded regular domain \$G\subset \mathbb{C}\$ with prescribed non-positive Gaussian curvature \$k(z)\$ and prescribed singularities by solving the first boundary value problem for the Gaussian curvature equation \$\Delta u =-k(z) e^{2u}\$ in \$G\$ with prescribed singularities and continuous boundary data. This is related to the Berger-Nirenberg problem in Riemannian geometry, the question which functions on a surface R can arise as the Gaussian curvature of a Riemannian metric on R. The special case, where \$k(z)=-4\$ and the domain \$G\$ is bounded by finitely many analytic Jordan curves was treated by Heins [4]. In a second step we show every conformal pseudo-metric on a simply connected domain \$G\subseteq \mathbb{C}\$ with constant negative Gaussian curvature and isolated zeros of integer order is the pullback of the hyperbolic metric on \$\mathbb{D}\$ under an analytic map \$f:G \to \mathbb{D}\$. This extends a theorem of Liouville which deals with the case that the pseudo-metric has no zeros at all. These two steps together allow a complete solution of Problem 1. Contents: Chapter I contains the statement of the main results and connects them with some old and new problems in complex analysis, conformal geometry and PDE: the Uniformization Theorem for Riemann surfaces, the problem of Schwarz-Picard, the Berger-Nirenberg problem, Wittich's problem, etc.. Chapter II and III have preparatory character. In Chapter II we recall some basic results about ordinary differential equations in the complex plane. In our presentation we follow Laine [6], but we have reorganized the material and present a self-contained account of the basic features of Riccati, Schwarzian and second order differential equations. In Chapter III we discuss the first boundary value problem for the Poisson equation. We shall need to consider this problem in the most general situation, which does not seem to be covered in a satisfactory way in the existing literature, see [1,2]. In Chapter IV we turn to a discussion of conformal pseudo-metrics in planar domains. We focus on conformal metrics with prescribed singularities and prescribed non-positive Gaussian curvature. We shall establish the existence of such metrics, that is, we solve the corresponding Gaussian curvature equation by making use of the results of Chapter III. In Chapter V we show that every constantly curved pseudo-metric can be represented as the pullback of either the hyperbolic, the euclidean or the spherical metric under an analytic map. This is proved by using the results of Chapter II. Finally we give in Chapter VI some applications of our results. [1,2] Courant, H., Hilbert, D., Methoden der Mathematischen Physik, Erster/ Zweiter Band, Springer-Verlag, Berlin, 1931/1937. [3] Fournier, R., Ruscheweyh, St., Free boundary value problems for analytic functions in the closed unit disk, Proc. Amer. Math. Soc. (1999), 127 no. 11, 3287-3294. [4] Heins, M., On a class of conformal metrics, Nagoya Math. J. (1962), 21, 1-60. [5] K?nau, R., L?gentreue Randverzerrung bei analytischer Abbildung in hyperbolischer und sph?ischer Geometrie, Mitt. Math. Sem. Giessen (1997), 229, 45-53. [6] Laine, I., Nevanlinna Theory and Complex Differential Equations, de Gruyter, Berlin - New York, 1993.},
  subject      = {Freies Randwertproblem},
  language  = {en}
}