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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Almost Periodic Functions of Several Variables

Rattray, Basil A. January 1949 (has links)
Hand-written mathematical equations throughout.
2

Absolute continuity in two-dimensional periodic elliptic boundary value problems

Walthoe, Jonathan Michael January 2000 (has links)
No description available.
3

The development of an objective technique for administering and evaluating physical examinations in elementary and secondary schools and in colleges

MacDonald, Edward Lewis January 1943 (has links)
This item was digitized by the Internet Archive. Thesis (Ed.D.)--Boston University / https://archive.org/details/developmentofobj00macd
4

QPM Devices in KTA and RKTP

Zukauskas, Andrius January 2014 (has links)
Even though KTiOPO4 (KTP) is considered to be one of the best nonlinear materials for quasi phase matched (QPM) frequency conversion in the visible and the near-infrared spectral regions, its use is often limited by poor material homogeneity, high ionic conductivity, a considerable linear absorption and photochromatic damage. On the other hand, the improved material homogeneity and the lower ionic conductivity of bulk Rb-doped KTP (RKTP) make this material an ideal alternative for fabrication of fine-pitch QPM gratings, while the arsenate isomorph KTiOAsO4 (KTA) promises a better performance in the green spectral region and adds the advantage of a wider transparency window in the infrared. Unfortunately, the available studies on these materials are limited and unable to answer the question whether RKTP and KTA are feasible alternatives to KTP in terms of periodic poling and optical performance. The optical performance of the QPM devices depends on the periodic poling quality, therefore, a detailed comprehension of domain-grating formation in the KTP isomorphs is highly desired. The goals of this thesis were to gain a better understanding of the periodic poling process in the KTP isomorphs, in order to study the specifics of ferroelectric domain engineering in KTA and RKTP, and to evaluate the optical performance of these isomorphs. Fine-pitch periodically poled structures were engineered both in KTA and RKTP crystals. It was demonstrated that QPM gratings with excellent quality and with periods as short as 8.49 μm can be fabricated in KTA crystals. Comparative transmission studies have shown that periodically poled KTA (PPKTA) crystals can be superior to KTP for QPM second harmonic generation in the visible spectral region due to lower linear absorption. It was also demonstrated that RKTP is a superior alternative to KTP for high-quality QPM grating fabrication. A consistent room-temperature periodic poling of 5 mm thick RKTP crystals with a period of 38.86 μm has been achieved. The obtained large aperture periodically poled RKTP (PPRKTP) crystals showed an outstanding QPM grating uniformity and excellent optical performance in optical parametric oscillator (OPO) applications. Moreover, it was shown that RKTP is less susceptible to blue-induced infrared absorption than KTP. Finally, a novel and a relatively simple method for self-assembling quasi-periodic sub-μm scale ferroelectric domain structure in RKTP crystals has been presented. It was shown that, after treatment in aqueous KOH/KNO3 solution, periodic poling of RKTP with planar electrodes resulted in one-dimensional ferroelectric domain structure with an average periodicity of 650±200 nm, extending over the whole 1 mm thick crystal. Such self-assembled structures in RKTP were used to demonstrate 5th order non-collinear QPM backward second harmonic generation. / <p>QC 20140114</p>
5

Asymmetric periodic solutions of the restricted problem of three bodies

Taylor, D. B. January 1979 (has links)
No description available.
6

A prelude to a third dimension of the periodic table : superatoms of aluminum iodide clusters /

Jones, Naiche Owen. January 2006 (has links)
Thesis (Ph. D.)--Virginia Commonwealth University, 2006. / Prepared for: Dept. of Chemistry. Bibliography: leaves 142-146. Also available online via the Internet.
7

Synthesis and Applications of Novel Periodic Mesoporous Organosilicas

Chun Xiang (Cynthia) Lin Unknown Date (has links)
Synthesis and Applications of Novel Periodic Mesoporous Organosilicas by Chun Xiang (Cynthia) LIN Abstract This dissertation is concerned with the synthesis, functionalization, and applications of periodic mesoporous organosilica (PMO) with a unique hollow spherical morphology, with the main objectives as follows: • Developing new techniques to synthesize mesoporous silica and organosilica materials • Designing different approaches to modify PMO and silica materials to meet various applications • Developing innovative applications of novel PMO materials in biological fields. The key features that have been achieved in this work are highlighted as follows: • A series of studies has been carried out and resulted in a new strategy for the synthesis of PMO material with a novel hollow morphology. This new approach employs both hydrocarbon and fluorocarbon surfactants as mixed structure-directing-agents in alkaline medium. Moreover, a vesicle and liquid crystal "dual-templating" mechanism has been proposed. • Detailed observation on the formation mechanism of hollow PMO has revealed that the demixing temperature (Td) plays an important role on the formation of highly ordered mesostructure of PMO hollow spheres. Beside that, dissimilarity on the hydrophobic nature of silica - organic silica precursors has brought differences in the resulted materials. • Different approaches in the modification of PMO hollow spheres with several functional groups and commercial magnetic ferrite nanoparticles have shown some unique features of this material. It was found that different reactive sites of each functional group bring different disruptive effect on the mesopore geometry of hollow PMO. Furthermore, hollow PMO material show different behavior on encapsulating the commercial magnetic ferrite nanoparticles compared to superparamagnetic particles, where different techniques should be applied, which involved several factors that need to be carefully adjusted. • Applications of hollow PMO in biological field were performed on drug and DNA delivery. A comparison between periodic mesoporous silica (PMS) and PMO as drug carriers showed the differences in wall composition between pure silica and hybrid organic silica, also the morphology (hollow and solid spheres) play important roles in controlling adsorption capacity and drug release rate. In addition, different pH value of release medium also brings significant effect on release profile. As a carrier of DNA, magnetic modified hollow PMO material showed biocompatibility towards sugarcane callus. Moreover, this study has introduced a new innovative technique on delivering DNA into plant cell through the application of modified hollow PMO with barium magnetic core and enzyme digestion approach.
8

A set of almost periodic discontinuous functions

Díaz, Lolimar, Naulin, Raúl 25 September 2017 (has links)
In this paper the non density of AP, the set of almost periodic functions in the sense of Bohr, in the space S of almost periodic functions in the sense of Stepanov is proven.
9

Acentric Design Systems: Mediated Impurity in Design

Plemel, J. Randolph 07 July 2003 (has links)
No description available.
10

Influences of periodical ocean current on water turbine performance

Wang, Ru-mei 19 January 2009 (has links)
This study investigates horizontal water turbine. Firstly, blade element momentum theory is exploited to design blade profiles. Then, CFD software, Fluent, is used to obtain such simulation results as torque, power and efficiency. A shroud outside the water turbine is tested to show the influence on the output power. Detailed parameters, shroud geometry and blade number, are considered too. Additionally, the maximal power generated by the turbine is analyzed under periodic sea current flow in this research. Our studies show that installed shroud can increase the output power more effectively and surely. Various kinds of shroud geometry have influence on the water turbine capability. As for the shroud types, nozzle type is better to achieve the best power. But as the inclined angle increases, the power also rises. The blade number boosts up the output power. Compared with other parameters, shroud length is of minor significance. On condition of periodic current flow, NACA63415 outperforms NACA0009, NACA0011 and Elliptical 10 in terms of airfoil, with its best efficiency and power.

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