Global ETD Search

551	Spatiotemporal Manipulation of Optical Vortices Zang, Yimin January 2021 (has links) No description available. Optics Physics Engineering spatiotemporal optical vortex orbital angular momentum Lens system third-order dispersion partial temporal coherence ultrafast fiber laser
552	Studium beta fáze v Al-Mg-Si slitinách pomocí nekonvenčních metod elektronové mikroskopie / Study of beta phase in Al-Mg-Si alloys by means of unconventional methods of electron microscopy Ligas, Aleš January 2014 (has links) Aluminium Al-Mg-Si alloys are the most commonly used in automotive and construction industry. Hexagonal ’-phase is one of the metastable phases occured in this type of alloys. Unlike classic square -phase, this ’-phase is characterized by different crystalographic orientation to the matrix and shape. Standard method used for identification of aluminium alloys is scanning electron microscopy (SEM), because of its quickness and efficiency, but in case of very thin or damaged structures (as a result of metallographic process) it’s insufficient. Scanning low energy electron microscopy (SLEEM) can be appropriate for identification of mentioned precipitates due to its physical principles resulting in many advantages compared to SEM. So the most important benefits are interaction volume reduction (which leads to improvement of surface sensitivity), increase of material contrast (ability to change matrix / precipitates contrast) as well as crystalographic contrast.
553	The Process-Structure-Property Relationships of a Laser Engineered Net Shaping (LENS) Titanium-Aluminum-Vanadium Alloy that is Functionally Graded with Boron Seely, Denver W 04 May 2018 (has links) In this study, we quantified the Chemistry-Process-Structure-Property (CPSP) relations of a Ti-6Al-4V/TiB functionally graded material to assess its ability to withstand large deformations in a high throughput manner. The functionally graded Ti-6Al-4V/TiB alloy was created by using a Laser Engineered Net Shaping (LENS) process. A complex thermal history arose during the LENS process and thus induced a multiscale hierarchy of structures that in turn affected the mechanical properties. Here, we quantified the functionally graded chemical composition; functionally graded TiB particle size, number density, nearest neighbor distance, and particle fraction; grain size gradient; porosity gradient. In concert with these multiscale structures, we quantified the associated functionally graded elastic moduli and overall stress-strain behavior of eight materials with differing amounts of titanium, vanadium, aluminum, and boron with just one experiment under compression using digital image correlation techniques. We then corroborated our experimental stress behavior with independent hardening experiments. This paper joins not only the Process-Structure-Property (PSP) relations, but couples the different chemistries in an efficient manner to effectively create the CPSP relationships for analyzing titanium, aluminum, vanadium, and boron together. Since this methodology admits the CPSP coupling, the development of new alloys can be solved by using an inverse method. Finally, this experimental data now lays down the gauntlet for modeling the sequential CPSP relationships. Functionally Graded Material Digital Image Correlation Boron Borlite Titanium LENS Additive Manufacturing 3D Printing
554	Phospholipid Transport in Silicon Hydrogel Contact Lenses Zhao, Yibei 20 September 2011 (has links) (PDF) Dry eye syndrome has been associated with the lack of phospholipids in the tear film, leading to disruption of the tear film and subsequent irritation. Characterization of the transport and release of phospholipids from a silicone hydrogel contact lens is required to assess the possible use of these lenses for phospholipid delivery to increase patient comfort. This thesis examines the use of silicone hydrogel contact lenses as phospholipid delivery devices. Contact lenses of silicone hydrogel composition were loaded with varying amounts of radiolabeled 1,2-dimyristoyl-sn-glycero-3-phosphocholine (DMPC) from a solution of n-propanol. These lenses were eluted at 35°C into artificial tear fluid (ATF) or ATFcontaining varying amounts of DMPC. The amount of DMPC loaded into a lens is a linear function of the time of exposure to the DMPC/propanol solution. The initial rate of elution into ATF appears to be diffusion controlled for at least 10 hrs and is proportional to the amount of DMPC loaded. The ease of loading and the controllable release of DMPC from silicone hydrogels present the possibility of using such lenses to counter eye discomfort caused by inherently low levels of phospholipid in tears. To reduce manufacturing steps and concern for residual n-propanol in the lens, it is beneficial to incorporate the DMPC into the monomer formulation and then photopolymerize the lens. Results showed that using this process, DMPC can be placed in the lens and then eluted at faster rates than when it was loaded from n-propanol. silicone hydrogel contact lens dry eye discomfort phospholipid delivery artificial tear fluid elution drug transport Chemical Engineering
555	Design, Analysis, And Optimization Of Diffractive Optical Elements Under High Numerical Aperture Focusing Jabbour, Toufic 01 January 2009 (has links) The demand for high optical resolution has brought researchers to explore the use of beam shaping diffractive optical elements (DOEs) for improving performance of high numerical aperture (NA) optical systems. DOEs can be designed to modulate the amplitude, phase and/or polarization of a laser beam such that it focuses into a targeted irradiance distribution, or point spread function (PSF). The focused PSF can be reshaped in both the transverse focal plane and along the optical axis. Optical lithography, microscopy and direct laser writing are but a few of the many applications in which a properly designed DOE can significantly improve optical performance of the system. Designing DOEs for use in high-NA applications is complicated by electric field depolarization that occurs with tight focusing. The linear polarization of off-axis rays is tilted upon refraction towards the focal point, generating additional transverse and longitudinal polarization components. These additional field components contribute significantly to the shape of the PSF under tight focusing and cannot be neglected as in scalar diffraction theory. The PSF can be modeled more rigorously using the electromagnetic diffraction integrals derived by Wolf, which account for the full vector character of the field. In this work, optimization algorithms based on vector diffraction theory were developed for designing DOEs that reshape the PSF of a 1.4-NA objective lens. The optimization techniques include simple exhaustive search, iterative optimization (Method of Generalized Projections), and evolutionary computation (Particle Swarm Optimization). DOE designs were obtained that can reshape either the transverse PSF or the irradiance distribution along the optical axis. In one example of transverse beam shaping, all polarization components were simultaneously reshaped so their vector addition generates a focused flat-top square irradiance pattern. Other designs were obtained that can be used to narrow the axial irradiance distribution, giving a focused beam that is superresolved relative to the diffraction limit. In addition to theory, experimental studies were undertaken that include (1) fabricating an axially superresolving DOE, (2) incorporating the DOE into the optical setup, (3) imaging the focused PSF, and (4) measuring aberrations in the objective lens to study how these affect performance of the DOE. Diffractive Optical Element Beam Shaping Superresolution High Numerical Aperture Vector Diffraction Objective Lens Characterization Electromagnetics and Photonics Optics
556	Gabor Domain Optical Coherence Microscopy Murali, Supraja 01 January 2009 (has links) Time domain Optical Coherence Tomography (TD-OCT), first reported in 1991, makes use of the low temporal coherence properties of a NIR broadband laser to create depth sectioning of up to 2mm under the surface using optical interferometry and point to point scanning. Prior and ongoing work in OCT in the research community has concentrated on improving axial resolution through the development of broadband sources and speed of image acquisition through new techniques such as Spectral domain OCT (SD-OCT). In SD-OCT, an entire depth scan is acquired at once with a low numerical aperture (NA) objective lens focused at a fixed point within the sample. In this imaging geometry, a longer depth of focus is achieved at the expense of lateral resolution, which is typically limited to 10 to 20 [micro]m. Optical Coherence Microscopy (OCM), introduced in 1994, combined the advantages of high axial resolution obtained in OCT with high lateral resolution obtained by increasing the NA of the microscope placed in the sample arm. However, OCM presented trade-offs caused by the inverse quadratic relationship between the NA and the DOF of the optics used. For applications requiring high lateral resolution, such as cancer diagnostics, several solutions have been proposed including the periodic manual re-focusing of the objective lens in the time domain as well as the spectral domain C-mode configuration in order to overcome the loss in lateral resolution outside the DOF. In this research, we report for the first time, high speed, sub-cellular imaging (lateral resolution of 2 [micro]m) in OCM using a Gabor domain image processing algorithm with a custom designed and fabricated dynamic focus microscope interfaced to a Ti:Sa femtosecond laser centered at 800 nm within an SD-OCM configuration. It is envisioned that this technology will provide a non-invasive replacement for the current practice of multiple biopsies for skin cancer diagnosis. The research reported here presents three important advances to this technology all of which have been demonstrated in full functional hardware conceived and built during the course of this research. First, it has been demonstrated that the coherence gate created by the femtosecond laser can be coupled into a scanning optical microscope using optical design methods to include liquid lens technology that enables scanning below the surface of skin with no moving parts and at high resolution throughout a 2x2x2 mm imaging cube. Second, the integration the variable-focus liquid lens technology within a fixed-optics microscope custom optical design helped increase the working NA by an order of magnitude over the limitation imposed by the liquid lens alone. Thus, this design has enabled homogenous axial and lateral resolution at the micron-level (i.e., 2 [micro]m) while imaging in the spectral domain, and still maintaining in vivo speeds. The latest images in biological specimens clearly demonstrate sub-cellular resolution in all dimensions throughout the imaging volume. Third, this new modality for data collection has been integrated with an automated Gabor domain image registration and fusion algorithm to provide full resolution images across the data cube in real-time. We refer to this overall OCM method as Gabor domain OCM (GD-OCM). These advantages place GD-OCM in a unique position with respect to the diagnosis of cancer, because when fully developed, it promises to enable fast and accurate screening for early symptoms that could lead to prevention. The next step for this technology is to apply it directly, in a clinical environment. This step is underway and is expected to be reported by the next generation of researchers within this group. optical coherence microscopy dynamic focusing high resolution 3D imaging skin imaging liquid lens gabor domain Electromagnetics and Photonics Optics
557	Design of a Maxwell Fish-Eye Lens in PCB Technology With a Glide-Symmetric Metasurface Arnberg, Philip, Barreira Petersson, Oscar January 2019 (has links) The aim of this project is to design a cost-effective planar Maxwell fish-eye lens in PCB technology operating at the center frequency 5 GHz with a bandwidth of 20 %. An approach to design a cost-effective lens is to use a metasurface, which is commonly realized as a periodic structure of unit cells. In this project, a study was made by comparing different unit cells and considering the effect of applying glide symmetry to the unit cells. Comparing different unit cells withand without glide symmetry demonstrates that glide symmetry is necessary to achieve a 20 % bandwidth. Introducing glide symmetry showed a reduction in dispersive behavior, an increaseof isotropy and effective refractive index. Simulations of the full lens show a functioning lens with a power transfer of 67 % at 5.46 GHz. In conclusion, glide symmetry will improve the performance of the lens and is necessary to fulfill the requirement of a 20 % bandwidth. Maxwell fish-eye lens unit cell metasurface glide symmetry. Elektroteknik och elektronik
558	DEVELOPMENT OF SMART CONTACT LENS TO MONITOR EYE CONDITIONS Seul Ah Lee (17591811) 11 December 2023 (has links) <p> </p> <p>In this study, we present advancements in smart contact lenses, highlighting their potential as minimally or non-invasive diagnostic and drug delivery platforms. The eyes, rich in physiological and diagnostic data, make contact lens sensors an effective tool for disease diagnosis. These sensors, particularly smart contact lenses, can measure various biomolecules like glucose, urea, ascorbate, and electrolytes (Na+, K+, Cl-, HCO3-) in ocular fluids, along with physical biomarkers such as movement of the eye, intraocular pressure (IOP) and ocular surface temperature (OST).</p> <p>The study explores the use of continuous, non-invasive contact lens sensors in clinical or point-of-care settings. Although promising, their practical application is hindered by the developmental stage of the field. This thesis addresses these challenges by examining the integration of contact lens sensors, covering their working principle, fabrication, sensitivity, and readout mechanisms, with a focus on monitoring glaucoma and eye health conditions like dry eye syndrome and inflammation.</p> <p>Our design adapts these sensors to fit various corneal curvatures and thicknesses. The lenses can visually indicate IOP through microfluidic channels' mechanical deformation under ambulatory conditions. We also introduce a colorimetric hydrogel tear fluid sensor that detects pH, electrolytes, and ocular surface temperature, indicating conditions like dry eye disease and inflammation.</p> <p>The evaluation of these contact lens sensors includes in vivo/vitro biocompatibility, ex vivo functionality studies, and in vivo safety assessments. Our comprehensive analysis aims to enhance the practicality and effectiveness of smart contact lenses in ophthalmic diagnostics and therapeutics.</p> Biomaterials Biomechanical engineering Biomedical imaging Medical devices colorimetric sensor systems hydrogel contact lens sensor wearable devices and sensors tear fluid sensor
559	The Afterimage of Violence : Frames and Responsiveness in the Three Films Also Known as Jihadi, Umdrehen and When Things Occur Bähler Lavér, Karin January 2023 (has links) Abstract The Afterimage of Violence: Frames and Responsiveness in the Three Films Also Known as Jihadi, Umdrehen and When Things Occur This thesis explores the intersection of aesthetics, ethics, and politics in relation to artistic strategies that confront political violence in artistic lens-based media. It aims to expand understandings of the possibilities and limitations of depicting violent real-world events and investigates how images of violence elicit responses from viewers. This study focuses on three art films—Also Known as Jihadi (2017), Umdrehen (2022), and When Things Occur (2016)—that grapple with different instances of violence, examining their affective, embodied, and non-representational perspectives. The films are analyzed through a triangulation of Jacques Rancière's concept of the "distribution of the sensible," Judith Butler's notion of the frame, and Jill Bennett's idea of the transactive potential harbored in artworks. Drawing on Butler's question regarding the norms that govern which lives are recognized as human and worthy of protection, the thesis argues that the three art films function as afterimages of violence, which orchestrate affective responses and ethical engagement with the suffering of others. The analysis delves into the artistic strategies employed by the films to generate a more nuanced understanding of political violence, highlighting the interplay between cognitive associations, affective forces, and embodied perception. It explores the relationship between representation and responsiveness, investigating how art can disrupt established notions and judgments surrounding violent events and the lives affected by them. By analyzing the three selected films, the thesis articulates how art can generate critical engagement with political violence and cultivate empathic concern. The research aims to contribute to a broader understanding of the aesthetic and ethical implications of representing violence, emphasizing the potential of art to transform perceptions, foster new modes of seeing, and engender ethical responses. Aesthetics Affect Afterimage Art Distribution of the sensible Ethics Frame Lens based media Politics Responsiveness Violence Transactive Cultural Studies Kulturstudier
560	Scanning range extension by combining arrays with lenses Wang, Hairu January 2022 (has links) Array antennas, and more specifically phased array antennas, are widely used in radar detection and communication systems because of their excellent beam scanning ability and simple control. Generally speaking, the scanning function can be realized in two ways: mechanically or electronically. Mechanical steering is done by rotating the whole structure, so there is a certain delay. The electronic scanning is done by controlling the relative relationship between the input signals of different array elements. Electronical scanning is then faster and easy to integrate with other circuits, which makes it an interesting solution to these applications. However, the disadvantage of electronic steering is that the scanning angle range is limited, which is generally within the range of ±60° . Beyond this range, the performance of the antenna will decrease considerably. One way to improve the antenna gain or expand the scanning range of the array antenna is to combine the array antenna with a dielectric radome. This thesis mainly studies how to adjust the shape of the dielectric radome with a center frequency of 28GHz to expand the beam scanning range of the two-dimensional array composed of rectangular waveguide ports. The inner and outer profiles of the dielectric lens follows the conics equation, and the shape of the lens can be controlled by adjusting different parameters. In this thesis, I adjust the lens shape according to three different objectives: 1. Increase the gain of the array antenna at the small scanning angle (0° ∼ 30°). The adjusted lens model increases the gain in this range by about 0.5 dBi; 2. Improve the gain of the array antenna at the large scanning angle (60° ∼ 80°). The final lens model increases the gain of the array antenna at the scanning angle of 70° and 80° by about 0.5 dBi and 1 dBi respectively; and 3. Improve the directivity of the array antenna in the range of 0° ∼ 70° . The final dielectric lens model improves the directivity in the broadside direction by about 1 dBi, and increases about 0.6 dBi when the scanning angle is 60° ; / Arrayantenner, och mer specifikt fasantenner, används ofta i radardetekterings- och kommunikationssystem på grund av deras utmärkta strålskanningsförmåga och enkla kontroll. Generellt kan skanningsfunktionen realiseras på två sätt: mekaniskt eller elektroniskt. Mekanisk styrning görs genom att rotera hela strukturen, så det finns en viss fördröjning. Den elektroniska skanningen görs genom att styra det relativa förhållandet mellan ingångssignalerna för olika arrayelement. Elektronisk skanning är då snabbare och lätt att integrera med andra kretsar, vilket gör det till en intressant lösning för dessa applikationer. Nackdelen med elektronisk styrning är dock att skanningsvinkeln är begränsad, vanligtvis mindre än ±60°. Utöver detta område kommer antennens prestanda att minska avsevärt. Ett sätt att förbättra antennförstärkningen eller utöka antennens skanningsområde är att kombinera arrayantennen med en dielektrisk radom. Denna avhandling studerar huvudsakligen hur man justerar formen på den dielektriska radomen med en centerfrekvens på 28GHz för att utöka strålskanningsområdet för den tvådimensionella array bestående av rektangulära vågledarportar. Den dielektriska linsens inre och yttre form följer konekvationen, och linsens form kan kontrolleras genom att justera olika parametrar. I denna avhandling justerar jag linsens form enligt tre olika mål: 1. Öka förstärkningen av antennen vid den lilla skanningsvinkeln (0° ∼ 30°). Den justerade linsmodellen ökar förstärkningen i detta område med cirka 0.5 dBi; 2. Förbättra förstärkningen av antennen vid den stora skanningsvinkeln (60° ∼ 80° ). Den slutliga modellen på linsen ökar förstärkningen av antennen i skanningsvinkeln 70° och 80° med cirka 0.5 dBi respektive 1 dBi; och 3. Förbättra riktigheten hos antennen i intervallet 0° ∼ 70°. Den slutliga dielektriska linsmodellen förbättrar riktningen i breddriktningen med ca 1 dBi, och ökar ca 0.6 dBi när skanningsvinkeln är 60°; Dome Antenna Dielectric Lens Array Antenna Kupolantenn Dielektrisk lins Array antenn Elektroteknik och elektronik

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