Global ETD Search

991	Awakening The Muse: A Museum for the Fisher Family Art Collection Massey, Ivor Nikolas 18 December 2008 (has links) This thesis is a proposal for a large contemporary art museum on the Presidio Parade Grounds in San Francisco, California. The site is small and historic, thus my solution was to build primarily underground. Through my exploration of designing a subterranean art museum I addressed the challenges of natural lighting, circulation, and curation. The following images document the result of my studies. / Master of Architecture Gallery Canyon Architecture Path Subterranean Light
992	House of Enlightenment Bergsten, Oscar January 2024 (has links) Today, the city of Umeå is missing a space for both social meetings and culture, and as we become more and more disconnected from social interactions, a new space for this is proposed. To make this project flourish both lighting conditions and the programmatic layout have been extensively studied. The lighting conditions are mainly taken from skylights to ensure consistent lighting throughout and as well incorporate carefully placed windows to bring experiential qualities that in turn elevate the atmosphere. The proposed building incorporates three different programs. A library, a music scene and cinemas. These programs take on a fluid layout, where the library, divided into three sections, is located either underneath or on an undulating landscape. Here a focus has been laid on the usage of permeable materials, such as textiles, to ensure and encourage social interactions. Then the cinemas and the music scene appear to float above that, which also brings social qualities, as they are favourable to remain seated in after the end of the show. Umeå Light Library Concrete Skylight Architecture Arkitektur
993	Optical Property Study of 2D Graded Photonic Super-Crystals for Photon Management Hassan, Safaa 05 1900 (has links) In this dissertation, we study the optical property of 2D graded photonic super-crystals (GPSCs) for photon management. We focused primarily on manipulation and control of light by using the newly discovered GPSCs which present great opportunity for electromagnetic wave control in photonic devices. The GPSC has been used to explore the superior capability of improving the light extraction efficiency of OLEDs. The enhancement of extraction efficiency has been explained in term of destructive interference of surface plasmon resonance and out-coupling of surface plasmon through phase matching provided by GPSC and verified by e-field intensity distributions. A large light extraction efficiency up to 75% into glass substrate has been predicted through simulation. We also study the light trapping enhancement in GPSCs. Broadband, wide incident angle, and polarization independent light trapping enhancement is achieved in silicon solar cells patterned with the GPSCs. In addition, novel 2D GPSCs were fabricated using holographic lithography through the interference lithography by two sets of multiple beams arranged in a cone geometry using a spatial light modulator (SLM). Finally, we also report a fabrication of GPSCs with a super-cell size of 12a×12a by using e-beam lithography. Diffraction pattern from GPSCs reveals unique diffraction properties. In an application aspect, light emitting diode arrays can be replaced by a single light emitting diode shinning onto the diffraction pattern for a uniform fluorescence. Graded Photonic Super-Crystals Organic Light-Emitting Diodes (OLED) Silicon Solar Cell Light Absorption Holographic Fabrication Spatial Light Modulator (SLM) E-Beam Lithography Light Trapping
994	Historique de la Quebec Railway Ligth & Power Co. Blouin, Jean-Paul 15 April 2019 (has links) Québec Université Laval, Bibliothèque 2019
995	Visualizing light cones in space-time Elmabrouk, T. January 2013 (has links) Although introductory courses in special relativity give an introduction to the causal structure of Minkowski space, it is common for causal structure in general space- times to be regarded as an advanced topic, and omitted from introductory courses in general relativity, although the related topic of gravitational lensing is often included. Here a numerical approach to visualizing the light cones in exterior Schwarzschild space taking advantage of the symmetries of Schwarzschild space and the conformal invariance of null geodesics is formulated, and used to make some of these ideas more accessible. By means of the Matlab software developed, a user is able to produce figures showing how light cones develop in Schwarzschild space, starting from an arbitrary point and developing for any length of time. The user can then interact with the figure, changing their point of view, or zooming in or out, to investigate them. This approach is then generalised, using the symbolic manipulation facility of Matlab, to allow the user to specify a metric as well as an initial point and time of development. Finally, the software is demonstrated with a selection of metrics. 516.3
996	Thin-film photonic crystal LEDs with enhanced directionality Bergenek, Krister January 2009 (has links) The use of photonic crystals for light extraction from light-emitting diodes (LEDs) gives the possibility to shape the farfield emission pattern. This is of particular interest for étendue-limited LED applications that require a more directional farfield than state- of-the-art Lambertian emitters. However, the application of a photonic crystal in a LED results in directional emission only if the photonic crystal and the distribution of guided modes in the LED are tuned correctly. In this thesis, red- and blue-emitting thin-film PhC-LEDs in the AlGaInP and InGaN material systems were modelled, designed, fabricated and characterized. The first experimental results show that light extraction with photonic crystals from AlGaInP thin-film LEDs several microns thick is neither directional nor more efficient than state-of-the-art LEDs with a rough surface structure. Directional light extraction for AlGaInP PhC-LEDs is for the first time demonstrated in much thinner devices where the photonic crystal light extraction of guided modes is combined with the resonant-cavity effect. In an attempt to approach the ideal PhC-LED, strong photonic crystal farfield shaping is demonstrated in InGaN thin-film LEDs of sub-micron thickness. Analysis of their spectral farfields unexpectedly shows that high order diffraction contributes significantly to the light extraction efficiency if the mode absorption is sufficiently low. It is also demonstrated that directional photonic crystal light extraction is possible in InGaN thin-film LEDs several microns thick. The directionality stems from the modulation of the spontaneous emission caused by the proximity of the active region to the bottom mirror. Two new concepts for enhanced light extraction and high directionality are presented: Photonic crystals with two dominating lattice constants are found to outperform conventional photonic crystal LEDs. An alternative approach is the dielectric PhC-LED - FDTD simulations show that the high extraction efficiency of LEDs with surface roughness is combined with the higher directionality of photonic crystal light extraction.
997	Bessel Light Sheet Structured Illumination Microscopy Noshirvani Allahabadi, Golchehr, Noshirvani Allahabadi, Golchehr January 2016 (has links) Biomedical study researchers using animals to model disease and treatment need fast, deep, noninvasive, and inexpensive multi-channel imaging methods. Traditional fluorescence microscopy meets those criteria to an extent. Specifically, two-photon and confocal microscopy, the two most commonly used methods, are limited in penetration depth, cost, resolution, and field of view. In addition, two-photon microscopy has limited ability in multi-channel imaging. Light sheet microscopy, a fast developing 3D fluorescence imaging method, offers attractive advantages over traditional two-photon and confocal microscopy. Light sheet microscopy is much more applicable for in vivo 3D time-lapsed imaging, owing to its selective illumination of tissue layer, superior speed, low light exposure, high penetration depth, and low levels of photobleaching. However, standard light sheet microscopy using Gaussian beam excitation has two main disadvantages: 1) the field of view (FOV) of light sheet microscopy is limited by the depth of focus of the Gaussian beam. 2) Light-sheet images can be degraded by scattering, which limits the penetration of the excitation beam and blurs emission images in deep tissue layers. While two-sided sheet illumination, which doubles the field of view by illuminating the sample from opposite sides, offers a potential solution, the technique adds complexity and cost to the imaging system. We investigate a new technique to address these limitations: Bessel light sheet microscopy in combination with incoherent nonlinear Structured Illumination Microscopy (SIM). Results demonstrate that, at visible wavelengths, Bessel excitation penetrates up to 250 microns deep in the scattering media with single-side illumination. Bessel light sheet microscope achieves confocal level resolution at a lateral resolution of 0.3 micron and an axial resolution of 1 micron. Incoherent nonlinear SIM further reduces the diffused background in Bessel light sheet images, resulting in confocal quality images in thick tissue. The technique was applied to live transgenic zebra fish tg(kdrl:GFP), and the sub-cellular structure of fish vasculature genetically labeled with GFP was captured in 3D. The superior speed of the microscope enables us to acquire signal from 200 layers of a thick sample in 4 minutes. The compact microscope uses exclusively off-the-shelf components and offers a low-cost imaging solution for studying small animal models or tissue samples. Bio medical imaging Fluorescence Microscopy Light Sheet Imaging Physics Bessel Light Sheet
998	Light Spectra Distributions in Temperate Conifer-Forest Canopy Gaps, Oregon and in Tropical Cloud-Forest Canopy, Venezuela Monteleone, Susan Elaine 12 1900 (has links) Light spectra distributions were measured in two different montane forests: temperate and tropical. Spectral light measurements were made in different sized canopy gaps in the conifer forest at H. J. Andrews Experimental Forest in Oregon, USA. Researchers at Oregon State University created these gaps of 20 m, 30 m, and 50 m in diameter. In the tropical cloud forest, spectral light measurements were made in two plots that were permanently established at La Mucuy Parque Nacional in Venezuela, in collaboration with researchers at Universidad de Los Andes. In both studies, spectra and distributions of physiologically active light were analyzed: red, far-red, R/FR ratio, and blue light. Light spectra Montane forests Temperate forests Tropical forests Light. Forest canopy gaps -- Oregon. Forest canopies -- Venezuela.
999	Fabrication and light scattering study of multi-responsive nanostructured hydrogels and water-soluble polymers. Xia, Xiaohu 12 1900 (has links) Monodispersed microgels composed of poly-acrylic acid (PAAc) and poly(N-isopropylacrylamide) (PNIPAM) interpenetrating networks were synthesized by 2-step method with first preparing PNIPAM microgel and then polymerizing acrylic acid that interpenetrates into the PNIPAM network. The semi-dilute aqueous solutions of the PNIPAM-PAAc IPN microgels exhibit an inverse thermo-reversible gelation. Furthermore, IPN microgels undergo the reversible volume phase transitions in response to both pH and temperature changes associated to PAAc and PNIPAM, respectively. Three applications based on this novel hydrogel system are presented: a rich phase diagram that opens a door for fundamental study of phase behavior of colloidal systems, a thermally induced viscosity change, and in situ hydrogel formation for controlled drug release. Clay-polymer hydrogel composites have been synthesized based on PNIPAM gels containing 0.25 to 4 wt% of the expandable smectic clay Na-montmorillonite layered silicates (Na-MLS). For Na-MLS concentrations ranging from 2.0 to 3.2 wt%, the composite gels have larger swelling ratio and stronger mechanical strength than those for a pure PNIPAM. The presence of Na-MLS does not affect the value of the lower critical solution temperature (LCST) of the PNIPAM. Surfactant-free hydroxypropyl cellulose (HPC) microgels have been synthesized in salt solution. In a narrow sodium chloride concentration range from 1.3 to 1.4 M, HPC chains can self-associate into colloidal particles at room temperature. The microgel particles were then obtained in situ by bonding self-associated HPC chains at 23 0C using divinyl sulfone as a cross-linker. The volume phase transition of the resultant HPC microgels has been studied as a function of temperature at various salt concentrations. A theoretical model based on Flory-Huggins free energy consideration has been used to explain the experimental results. Self-association behavior and conformation variation of long chain branched (LCB) poly (2-ethyloxazoline) (PEOx) with a CH3-(CH2)17 (C18) modified surface are investigated using light scattering techniques in various solvents. The polymer critical aggregation concentration (cac) strongly depends on solvent polarity, decreasing as the solvent becomes more hydrophobic. Nanostructured materials. Colloids. Water-soluble polymers. Light -- Scattering. hydrogels colloids nanomaterials light scattering
1000	LLUM: Light and Reflection Taguchi, Kazue 01 January 2007 (has links) When I was nineteen years old, I traveled to ten countries in Europe. While there, I visited many museums and monuments, but it was in the solemn churches that I first saw stained glass and my aesthetic awakening occurred. My first impression was of a "living painting". By this I mean that a stained glass window is a non-static painting, as its appearance is dependant on the quality of light that shines though its panes. The same stained glass window looks different in the morning, evening and night. It has one color scheme on a sunny day and another on a cloudy day. The same window can look like a completely different work depending on its lighting. Most of the windows I saw were figurative, but the projections they made on the wall and floors were abstract. To me these projections seemed like "color stains", that moved with the sun and the passing of time. The solemn environment of these old churches looked like a huge light installation to a young girl from a country where centuries old stained glass installations did not exist.Currently, I make my work using reflective material and light. In the case of my outdoor pieces, they capture different "colorscapes" depending on the time of day. These reflective materials patch together and create new landscapes out of their natural surroundings. In the case of my indoor pieces, when light hits the surface, a complex interplay of reflections and shadows are created. The relationship between my work and my interest in reflection is the most exciting part of my creative research. Like sound, memory, feeling and imagination, light is intangible and invisible, but its effect on our lives is profound. My interest in creating works with light is in experiencing the phenomenon of their visual qualities as well as in the creation of a relaxing and sublime space. relaxing space reflection light mirror colors artificial light Arts and Humanities Fine Arts

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