Leiblich lernen und lehren : ein religionsdidaktischer Diskurs /

Leonhard, Silke,

January 2006

Thesis (doctoral)--Universität, Hannover, 2005. / Includes bibliographical references (p. [493]-519) and index.

Design, fabrication, and testing of a variable focusing micromirror array lens

Cho, Gyoungil

29 August 2005

A reflective type Fresnel lens using an array of micromirrors is designed and fabricated using the MUMPs?? surface micromachining process. The focal length of the lens can be rapidly changed by controlling both the rotation and translation of electrostatically actuated micromirrors. The suspension spring, pedestal and electrodes are located under the mirror to maximize the optical efficiency. The micromirror translation and rotation are plotted versus the applied voltage. Relations are provided for the fill-factor and the numerical aperture as functions of the lens diameter, the mirror size, and the tolerances specified by the MUMPs?? design rules. Linnik interferometry is used to measure the translation, rotation, and flatness of a fabricated micromirror. The reflective type Fresnel lens is controlled by independent DC voltages of 16 channels with a 0 to 50V range, and translational and torsional stiffness are calibrated with measured data. The spot diameter of the point source by the fabricated and electrostatically controlled reflective type Fresnel lens is measured to test focusing quality of the lens.

Variable focusing lens

Micromirror

Fresnel lens

Fast-response

Electrostatic actuators

Surface micromachining

Etude du pouvoir moussant de la gélatine en relation avec ses propriétés physico-chimiques

Nicolay, Laurence

06 October 1993

L'étude du pouvoir moussant de la gélatine trouve son origine dans un problème industriel important, non résolu jusqu'à présent : le choix des lots de gélatine en fonction des applications (par exemple : les gelées sucrées ou salées ainsi que les gommes nécessitent pour leur fabrication des gélatines peu moussantes ; les produits foisonnés et les "lards" requièrent des gélatines à pouvoir moussant élevé). Pour ce faire, quatre objectifs ont été définis : la caractérisation du pouvoir moussant de la gélatine - la mise en évidence des paramètres influençant les propriétés moussantes - la maîtrise de la formation non contrôlée de mousse spontanée dans les solutions de gélatine - la définition du process à appliquer à la matière première pour l'obtention de gélatine de pouvoir moussant souhaité. Dans le cadre de ce travail, seuls les deux premiers objectifs ont été entièrement réalisés.

Isoelectro-focusing

Phospholipids

Collagen

Electrophoresis

Molecular weight

Foaming properties

Gelatin

Fatty acids

Fluorescent Reagents to Improve the Analytical Infrastructure of Capillary Electrophoretic Separations

Li, Ming-Chien

2012 May 1900

Two types of fluorescent molecules had been designed and synthesized to improve the analytical infrastructure of capillary electrophoretic separations. First, a hydrophilic version of the permanently cationic acridine-based fluorophore, HEG2Me2-DAA was synthesized. HEG2Me2-DAA has a lambda^ex max of 490 nm which matches the 488 nm line of the commonly used argon ion laser. The emission spectra of HEG2Me2-DAA are pH-independent. HEG2Me2-DAA was used in capillary electrophoresis with an aqueous background electrolyte and was found to be free of the detrimental peak tailing of the acridine orange-based fluorophore that was caused by adsorption on the inner wall of the fused silica capillary. Bovine serum albumin was labeled with excess of the designed amine reactive reagent and the lowest concentration at which the tagged bovine serum albumin was tested was 15 nM. Chicken ovalbumin was also labeled with FL-CA-PFP and analyzed by capillary isoelectric focusing (cIEF) with LIF detection. The pI values of the tagged proteins shifted in the alkaline direction by about 0.02 compared to the pI values of the non-tagged proteins. A tri-functional probe intended to enable selective enrichment and selective detection of a variety of molecules (e.g., natural products, pharmaceuticals, inhibitors, etc.) was also designed and synthetized by combining FL-CA with biotin and an azide group in a "proof-of-principle" level experiment. In cIEF, the profile of the pH gradient can only be determined with the help of pI markers. A large set of pyrene-based fluorescent pI markers was rationally designed to cover the pI range 3 to 10. To prove the feasibility of the proposed synthetic approach, the subgroup of the pI markers having the greatest structural complexity was synthesized and characterized. The classical zone electrophoretic pI determination methods failed due to severe chromatographic retention of the APTS based pI markers on the capillary wall. Exploratory work was done to design a new pI value determination method that combines the advantages of the immobilized pH gradient technology of the OFFGEL instrument and the carrier-ampholyte-based IEF technology. The method aspects of cIEF have also been improved in this work. The new segmented loading method yielded a more linear pH gradient than the previously known cIEF methods. To exploit a unique property of the newly developed fluorescent pI markers, we used them as pyrene-based ampholytic carbohydrate derivatizing reagents. The pI4 carbohydrate derivatization reagent proved advantageous over 8-aminopyrene-1,3,6-trisulfonic acid (APTS): the pI4 conjugates have higher molar absorbance at 488 nm than the APTS conjugates and become detectable in positive ion mode of MS affording better detection sensitivity.

Capillary electrophoresis

isoelectric focusing

fluorescent amine derivatizing reagent

fluorescent pI markers

Maternal Guilt: An Existential Phenomenological Study of the Early Experiences of First-Time Mothers

LeBeau, Claire S.

18 April 2015

The present study is an existential phenomenological investigation of the experiences of maternal guilt of five first-time mothers with infant children. Maternal guilt is a powerful, pervasive, and complex phenomenon that effects and is experienced by mothers in different ways. This research explores the experiences of these five mothers in feeling guilt related to being a mother and, using an adapted research methodology utilizing Focusing Technique (Gendlin, 1981), their embodied reflections about a particular memory of feeling maternal guilt. This study utilizes procedures explicated by Colaizzi (1978), Giorgi & Giorgi (2003), Todres (2007), von Eckartsberg (1998), Walsh (1995; 2004) and Wertz (1984). All participants provided data via a written account of a particular memory of feeling a sense of guilt related to being a mother, an individual interview which incorporated a modified Focusing component, and written and verbal feedback related to the write-up of the provisional thematic analysis of the interview. The interpreted analyses of the five interviews indicate seven formulated themes; physical and emotional connection to their babies, intense feelings of responsibility, feelings of being divided, multi-dimensionality of guilt with other emotions, pre-verbal miscommunication, anxiety over the unknown in the beginning, and social expectations and comparisons. The findings suggest that the process of embodied reflection regarding a new mother's emotional experiences of guilt can foster important awareness for how she can care for her own and her child's needs. Relationships between contemporary cultural discourses on motherhood and philosophical interpretations of guilt are discussed. Implications for creating networks of support and community for new parents are also explored. / McAnulty College and Graduate School of Liberal Arts; / Clinical Psychology / PhD; / Dissertation;

Delayed triggering of early aftershocks by multiple surface waves circling the earth

Sullivan, Brendan

27 August 2012

It is well known that direct surface waves of large earthquakes are capable of triggering shallow earthquakes and deep tremor at long-range distances. Recent studies have shown that multiple surface waves circling the earth could also remotely trigger microearthquakes. However, it is still not clear whether multiple surface waves returning back to the main shock epicenters could also trigger/modulate aftershock behavior. Here we conduct a study to search for evidence of such triggering by systematically examining aftershock patterns of earthquakes with magnitude ≥ 8 since 1990 that produce observable surface waves circling the globe repeatedly. We specifically examine the 2011 M9 Tohoku-Oki event using a composite catalog of JMA, HiNet and newly detected events obtained by waveform cross correlation. We compute the magnitude of completeness for each sequence, and stack all the sequences together to compute the seismicity and moment rates by sliding data windows. The sequences are also shuffled randomly and these rates are compared to the actual data as well as synthetic aftershock sequences to estimate the statistical significance of the results. Our results suggest that there is some moderate increase of early aftershock activity after a few hours when the surface waves return to the epicentral region. However, we could not completely rule out the possibility that such an increase is purely due to random fluctuations of aftershocks or caused by missing aftershocks in the first few hours after the mainshock.

Dynamic triggering

Antipodal focusing

Earthquake

Surface waves

Geophysics

Seismology

Earthquakes

Seismic waves

Seismology Research

Earthquake aftershocks

Aerosol Characterization and Analytical Modeling of Concentric Pneumatic and Flow Focusing Nebulizers for Sample Introduction

Kashani, Arash

31 May 2011

A concentric pneumatic nebulizer (CPN) and a custom designed flow focusing nebulizer (FFN) are characterized. As will be shown, the classical Nukiyama-Tanasawa and Rizk-Lefebvre models lead to erroneous size prediction for the concentric nebulizer under typical operating conditions due to its specific design, geometry, dimension and different flow regimes. The models are then modified to improve the agreement with the experimental results. The size prediction of the modified models together with the spray velocity characterization are used to determine the overall nebulizer efficiency and also employed as input to a new Maximum Entropy Principle (MEP) based model to predict joint size-velocity distribution analytically. The new MEP model is exploited to study the local variation of size-velocity distribution in contrast to the classical models where MEP is applied globally to the entire spray cross section. As will be demonstrated, the velocity distribution of the classical MEP models shows poor agreement with experiments for the cases under study. Modifications to the original MEP modeling are proposed to overcome this deficiency. In addition, the new joint size-velocity distribution agrees better with our general understanding of the drag law and yields realistic results.

Aerosol Characterization

Concentric Nebulizer

Flow Focusing Nebulizer

Sample Introduction

MEP modeling

Aerosol Characterization and Analytical Modeling of Concentric Pneumatic and Flow Focusing Nebulizers for Sample Introduction

Kashani, Arash

31 May 2011

A concentric pneumatic nebulizer (CPN) and a custom designed flow focusing nebulizer (FFN) are characterized. As will be shown, the classical Nukiyama-Tanasawa and Rizk-Lefebvre models lead to erroneous size prediction for the concentric nebulizer under typical operating conditions due to its specific design, geometry, dimension and different flow regimes. The models are then modified to improve the agreement with the experimental results. The size prediction of the modified models together with the spray velocity characterization are used to determine the overall nebulizer efficiency and also employed as input to a new Maximum Entropy Principle (MEP) based model to predict joint size-velocity distribution analytically. The new MEP model is exploited to study the local variation of size-velocity distribution in contrast to the classical models where MEP is applied globally to the entire spray cross section. As will be demonstrated, the velocity distribution of the classical MEP models shows poor agreement with experiments for the cases under study. Modifications to the original MEP modeling are proposed to overcome this deficiency. In addition, the new joint size-velocity distribution agrees better with our general understanding of the drag law and yields realistic results.

Aerosol Characterization

Concentric Nebulizer

Flow Focusing Nebulizer

Sample Introduction

MEP modeling

Soft Lithography for Applications in Microfluidic Thermometry, Isoelectric Focusing, and Micromixers

Samy, Razim Farid

January 2007

Microfluidics is gaining in importance due to its wide ranging benefits and applicability in chemical and biological analysis. Although traditional microfluidic devices are created with glass or silicon based fabrication technologies, polymer based devices are gaining in popularity. Soft lithography and replica molding are techniques for the rapid prototyping of such devices, utilizing Polydimethylsiloxane (PDMS) as the dominant material. Other benefits include its low costs and ease of fabrication. Even though soft lithography is a well researched and developed fabrication process, new applications have been discovered in which the technology can be applied. Often, changes in the fabrication process are necessary for their application in other areas of research. This thesis will address several microfluidic applications using soft lithography. These areas of research include microfluidic thermometry, isoelectric focusing (IEF), and micromixers. In microfluidic thermometry, a novel thin film PDMS/Rhodamine B has been developed allowing whole-chip temperature measurements. In addition, compatibility problems between Rhodamine B and PDMS microfluidic devices were resolved. The thin film fabrication process, experimental results, and issues with its use are discussed. Future work and attempts at improving the thin film performance are also provided. IEF involves applications in which samples are separated according to its electrostatic charge. Two types of IEF applications are shown in which soft lithography has been shown to be beneficial to its development and performance. In isoelectric focusing with the use of thermally generated pH gradients, soft lithography allows for the rapid design, production and testing of different channel layouts. In general, due to PDMS insulation and overall low heat transfer rates, the temperatures detected are more gradual than those previously reported in literature. IEF using carrier ampholytes are also discussed, with preliminary results in which devices fabricated using soft lithography are compared to commercially available IEF cartridges. Its fabrication issues are discussed in detail. In micromixers, soft lithography fabrication issues and overall integration with flow mechanisms is discussed. In general it is difficult to perform mixing in the microscale due to the predominantly laminar flow and flow rate restrictions. Channel geometry is insignificant, as can be seen through numerical simulations.

micofluidics

soft lithography

microfabrication

microfluidic thermometry

isoelectric focusing

micromixers

PDMS thin film

rhodamine B

Mechanical Engineering

Soft Lithography for Applications in Microfluidic Thermometry, Isoelectric Focusing, and Micromixers

Samy, Razim Farid

January 2007

Microfluidics is gaining in importance due to its wide ranging benefits and applicability in chemical and biological analysis. Although traditional microfluidic devices are created with glass or silicon based fabrication technologies, polymer based devices are gaining in popularity. Soft lithography and replica molding are techniques for the rapid prototyping of such devices, utilizing Polydimethylsiloxane (PDMS) as the dominant material. Other benefits include its low costs and ease of fabrication. Even though soft lithography is a well researched and developed fabrication process, new applications have been discovered in which the technology can be applied. Often, changes in the fabrication process are necessary for their application in other areas of research. This thesis will address several microfluidic applications using soft lithography. These areas of research include microfluidic thermometry, isoelectric focusing (IEF), and micromixers. In microfluidic thermometry, a novel thin film PDMS/Rhodamine B has been developed allowing whole-chip temperature measurements. In addition, compatibility problems between Rhodamine B and PDMS microfluidic devices were resolved. The thin film fabrication process, experimental results, and issues with its use are discussed. Future work and attempts at improving the thin film performance are also provided. IEF involves applications in which samples are separated according to its electrostatic charge. Two types of IEF applications are shown in which soft lithography has been shown to be beneficial to its development and performance. In isoelectric focusing with the use of thermally generated pH gradients, soft lithography allows for the rapid design, production and testing of different channel layouts. In general, due to PDMS insulation and overall low heat transfer rates, the temperatures detected are more gradual than those previously reported in literature. IEF using carrier ampholytes are also discussed, with preliminary results in which devices fabricated using soft lithography are compared to commercially available IEF cartridges. Its fabrication issues are discussed in detail. In micromixers, soft lithography fabrication issues and overall integration with flow mechanisms is discussed. In general it is difficult to perform mixing in the microscale due to the predominantly laminar flow and flow rate restrictions. Channel geometry is insignificant, as can be seen through numerical simulations.

micofluidics

soft lithography

microfabrication

microfluidic thermometry

isoelectric focusing

micromixers

PDMS thin film

rhodamine B

Mechanical Engineering