Global ETD Search

11	Optical Studies ofNano-Structures in the BeetleCetonia Aurata Shamim, Rizwana January 2009 (has links) The main objective of this thesis is to study the polarization effects of the beetle Cetonia aurata using Mueller-matrix ellipsometry. The outer shell of the beetle consists of complex microstructures which control the polarization of the reflected light. It has metallic appearance which originates from helicoidal structures. When these microstructures are exposed to polarized or unpolarized light, only left-handed circularly polarized light is reflected. Moreover, the exo-skeleton of the beetle absorbs right-handed polarized light. Multichannel Mueller-matrix ellipsometer or dual rotating compensator ellipsometer, called RC2, from J.A.Woollam is used to measure the polarization caused by different parts of beetle’s body. The 16 Mueller matrix elements are measured in the spectral range 400-800 nm at multiple angles of incidencein the range 400-700. An Optical model is developed to help us understand the nature and type of microstructure which only reflects the green colour circularly polarized light. With the help of multiparametric modeling, we were able to find optical properties and structural parameters. The parameters are: the number of layers, the numbers of sub-layers, their thicknesses, and the orientation with respect to optical axes. This optical model describes the nanostructures which provide the reflection properties similar to the nanostructure found in the beetle Cetonia aurata. The model is also useful for analysis of the optical response data of different materials with multilayer structures. Cetonia aurata Mueller-matrix ellipsometry Helicoidal structures Left-handed circularly polarized light Physics Fysik
12	Modelling reﬂected polarized light from exoplanetary atmospheres Aronson, Erik January 2011 (has links) I present numerical simulations of intensity and degree of polarization of light reﬂected by Earth-like exoplanets. The results are presented as a function of wavelength, and for a few diﬀerent phase angles and a few diﬀerent points on the planet. At this stage the aim is to show the working code and test a few diﬀerent set ups of the star-planet system in order to ﬁnd preferable conﬁgurations for observations. Not surprisingly, phase angle 90◦ shows the largest degree of polarization. For beneﬁcial wavelength regions, visual light shows a larger overall degree of polarization, while NIR shows very clear absorption patterns in the degree of polarization, making detection of the atmospheric composition possible. polarized light polarization atmosphere spectrum EXO planet extra solar planet planet star atmospheric features
13	Algorithms for processing polarization-rich optical imaging data R S, Umesh 05 1900 (has links) This work mainly focuses on signal processing issues related to continuous-wave, polarization-based direct imaging schemes. Here, we present a mathematical framework to analyze the performance of the Polarization Difference Imaging (PDI) and Polarization Modulation Imaging (PMI). We have considered three visualization parameters, namely, the polarization intensity (PI), Degree of Linear Polarization (DOLP) and polarization orientation (PO) for comparing these schemes. The first two parameters appear frequently in literature, possibly under different names. The last parameter, polarization orientation, has been introduced and elaborated in this thesis. We have also proposed some extensions/alternatives for the existing imaging and processing schemes and analyzed their advantages. Theoretically and through Monte-Carlo simulations, we have studied the performance of these schemes under white and coloured noise conditions, concluding that, in general, the PMI gives better estimates of all the parameters. Experimental results corroborate our theoretical arguments. PMI is shown to give asymptotically efficient estimates of these parameters, whereas PDI is shown to give biased estimates of the first two and is also shown to be incapable of estimating PO. Moreover, it is shown that PDI is a particular case of PMI. The property of PDI, that it can yield estimates at lower variances has been recognized as its major strength. We have also shown that the three visualization parameters can be fused to form a colour image, giving a holistic view of the scene. We report the advantages of analyzing chunks of data and bootstrapped data under various circumstances. Experiments were conducted to image objects through calibrated scattering media and natural media like mist, with successful results. Scattering media prepared with polystyrene microspheres of diameters 2.97m, 0.06m and 0.13m dispersed in water were used in our experiments. An intensified charge coupled device (CCD) camera was used to capture the images. Results showed that imaging could be performed beyond optical thickness of 40, for particles with 0.13m diameter. For larger particles, the depth to which we could image was much lesser. An experiment using an incoherent source yielded better results than with coherent sources, which we attribute to the speckle noise induced by coherent sources. We have suggested a harmonic based imaging scheme, which can perhaps be used when we have a mixture of scattering particles. We have also briefly touched upon the possible post processing that can be performed on the obtained results, and as an example, shown segmentation based on a PO imaging result. Electrical Engineering Optical imaging Polarized light Light scattering Signal modeling Degree of Polarization Imaging (DOPI)
14	Optical and structural property mapping of soft tissues using spatial frequency domain imaging Yang, Bin, Ph. D. 17 September 2015 (has links) Tissue optical properties, absorption, scattering and fluorescence, reveal important information about health, and holds the potential for non-invasive diagnosis and therefore earlier treatment for many diseases. On the other hand, tissue structure determines its function. Studying tissue structural properties helps us better understand structure-function relationship. Optical imaging is an ideal tool to study these tissue properties. However, conventional optical imaging techniques have limitations, such as not being able to quantitatively evaluate tissue absorption and scattering properties and only providing volumetrically averaged quantities with no depth control capability. To better study tissue properties, we integrated spatial frequency domain imaging (SFDI) with conventional reflectance imaging modalities. SFDI is a non-invasive, non-contact wide-field imaging technique which utilizes structured illumination to probe tissues. SFDI imaging is able to accurately quantify tissue optical properties. By adjusting spatial frequency, the imaging depth can be tuned which allows for depth controlled imaging. Especially at high spatial frequency, SFDI reflectance image is more sensitive to tissue scattering property than absorption property. The imaging capability of SFDI allows for studying tissue properties from a whole new perspective. In our study, we developed both benchtop and handheld SFDI imaging systems to accommodate different applications. By evaluating tissue optical properties, we corrected attenuation in fluorescence imaging using an analytical model; and we quantified optical and physical properties of skin diseases. By imaging at high spatial frequency, we demonstrated that absorption in fluorescence imaging can also be reduced because of a reduced imaging depth. This correction can be performed in real-time at 19 frames/second. Furthermore, fibrous structures orientation from the superficial layer can be accurately quantified in a multi-layered sample by limiting imaging depth. Finally, we color rendered SFDI reflectance image at high spatial frequency to reveal structural changes in skin lesions. Spatial frequency domain imaging Fluorescence imaging Polarized light imaging Hyperspectral imaging Imaging instrument
15	CHARACTERIZATION OF COLLOIDAL NANOPARTICLE AGGREGATES USING LIGHT SCATTERING TECHNIQUES Kozan, Mehmet 01 January 2007 (has links) Light scattering is a powerful characterization tool for determining shape, size, and size distribution of fine particles, as well as complex, irregular structures of their aggregates. Small angle static light scattering and elliptically polarized light scattering techniques produce accurate results and provide real time, non-intrusive, and in-situ observations on prevailing process conditions in three-dimensional systems. As such, they complement conventional characterization tools such as SEM and TEM which have their known disadvantages and limitations. In this study, we provide a thorough light scattering analysis of colloidal tungsten trioxide (WO3) nanoparticles in the shape of irregular nanospheres and cylindrical nanowires, and of the resulting aggregate morphologies. Aggregation characteristics as a function of primary particle geometry, aspect ratio of nanowires, and the change in dispersion stability in various polar solvents without the use of dispersants are monitored over different time scales and are described using the concepts of fractal theory. Using forward scattered intensities, sedimentation rates as a result of electrolyte addition and particle concentration at low solution pH are quantified, in contrast to widely reported visual observations, and are related to the aggregate structure in the dispersed phase. For nanowires of high aspect ratios, when aggregate structures cannot directly be inferred from measurements, an analytical and a quasiexperimental method are used.
16	Nature cohérente et incohérente de la réponse de Second Harmonique dans les nanostructures métalliques d’or et d’argent / Coherent and incoherent nature from second harmonic response in gold and silver metallic nanostructures Awada, Chawki 05 June 2009 (has links) Dans ce travail, les propriétés optiques non linéaires de différentes nanostructures métalliques à base d’or et d’argent sont étudiées. En particulier, une attention particulière est portée à la nature cohérente ou incohérente de la réponse. Pour cela, la technique de la Génération du Second Harmonique (SHG) est employée. C’est en effet l’une des méthodes optiques non linéaires les plus simples pour mettre en évidence cette nature cohérente ou incohérente de la réponse. Les échantillons utilisés pour cette mise en évidence sont constitués d’une part par des films diélectriques dopés par des nanoparticules bimétalliques d’alliages du type AuAg de différentes fractions molaires en or pour la réponse incohérente et d’autre part par des réseaux de nanocylindres d’or de différentes tailles disposés selon trois configurations géométriques (carrée, hexagonale et aléatoire) sur un substrat pour la réponse cohérente. La majeure partie du travail est dévolue à l’étude de la propagation et du doublage de fréquence en régime de faisceaux gaussiens et impulsions courtes dans les films diélectriques dopés par des nanoparticules bimétalliques en raison de phénomènes supplémentaires observés simultanément à la conversion de fréquence : absorption et réfraction non linéaire, phase de Gouy... Par la méthode des franges de Maker, les valeurs absolues des composantes de la susceptibilité non linéaire d’ordre 2 de ces films sont mesurées puis les valeurs absolues de l’hyperpolarisabilité quadratique des nanoparticules sont estimées sur la base d’un modèle de réponse incohérente. Enfin, une étude préliminaire sur la génération de continuum de lumière est présentée. La nature cohérente de la réponse SHG est recherchée dans les réseaux de nanocylindres. Nous montrons que l’origine de la réponse est associée à l’existence de défauts de surface dans ces nanostructures et donc conserve un caractère incohérent. Toutefois, nous avons pu mettre en évidence des effets associés à la taille des nanocylindres et à l’organisation des nanocylindres sur le substrat, ce dernier effet étant attaché à un caractère cohérent de la réponse / In this work, the non linear optical properties of different silver and gold metallic nanostructures are studied. In particular, a special attention is concerning the coherent or incoherent nature of the response. For that purpose, the Second Harmonic Generation (SHG) technique is used. It is indeed one of the simplest non linear optical methods to underline the coherent or incoherent nature of the response. Samples used for this reason are constituted on the first hand by dielectric films doped by bimetallic nanoparticles of clusters of the type AuAg of various gold molar fractions for the incoherent responses and on the other hand by arrays of gold nanocylinders of various sizes arranged according to three geometrical configurations (square, hexagonal and random) on a substrate for the coherent response. The major part of the work is devoted to the study of the propagation and the second harmonic frequency in regime of Gaussian beams and short pulses in dielectric films doped by bimetallic nanoparticles because of supplementary phenomena observed simultaneously in the conversion of frequency: non linear absorption and refraction, Gouy phase... By the method of the fringes of Maker, the absolute values of the coefficient of the second order non linear susceptibility of these films are measured then the absolute values of the quadratic hyperpolarizability of nanoparticles are estimated on the basis of a model of incoherent responses. Finally, a preliminary study on the light continuum generation is presented. The coherent nature of the SHG response is studied in the nanocylinders arrays. We show that the origin of the response is associated with the existence of the surface defects in these nanostructures and thus have an incoherent character. However, we were able to put in evidence the effects associated with the size of nanocylinders and with the organization of nanocylinders on the substrate, this last effect being attached to a coherent character of the response Lasers Impulsions femtoseconde Polarisation de la lumière Nanoparticules Absorption non linéaire Laser Pulses Polarized light Nanoparticles Non linear absorption
17	Analýza metod pro hodnocení submikrostruktury buněčné stěny dřeva / Method´s analysis of submicroscopy structure of wood cell wall determination Martinek, Radomír January 2018 (has links) The content of this study is focused on the influence of the structure of wood at microscopic and submicroscopic level on its mechanical properties. The wood cell wall consists of several layers, the dominant layer being layer S2, which occupies up to 80 % of the total thickness of the wood cell wall. Unique feature of this layer is that cellulose microfibrils placed in this layer are highly aligned and spirally wound around the cell axis. The inclination of these microfibrils is called microfibril angle (MFA) and is the key feature that affects mechanical properties of wood and its shrinkage. In theoretical part of this thesis methods for measuring microfibril angle are described. A method for measuring mechanical properties of the wood cell wall called nanoindentation is discussed in detail. In the practical part of this thesis, microfibril angle is measured by means of polarized light microscopy and mechanical properties of wood cell wall is determined by means of nanoindentation.
18	Design biolampy / Design of Biolamp Straková, Kateřina January 2018 (has links) This master thesis deals with the design of biolamp. First, the product undergoes historical, technical and designer analysis. Based on the findings of these analyzes is to propose a new version of this device meets the ergonomic, technical, aesthetic and social aspects.
19	Měření vlastností polarizovaného světla na výstupu vlnového multiplexu a jeho optimalizace pro použití v senzorové technice / Measurement of polarized light properties on the dense wavelength division multiplexing in optical-fiber sensor systems Bučko, Kristián January 2021 (has links) The polarization of light is one of the most remarkable phenomena in nature and has led to many discoveries in the optical-telecommunications sphere. The master's thesis describes the basic knowledge about polarized light, which includes the types of light polarization, the issue of Poincaré sphere, polarizing ellipse, etc. Emphasis is also placed on the measurement of optical power, where the analysis of various types of photodetectors and also polarimeters was performed. In the practical part of this work, the design of the workplace itself is described in the diagrams. Also, all devices in the workplace are analyzed and subsequently demonstrated measurement in several scenarios. The final chapter is a discussion with the measured results and graphical dependencies, comparison and analysis of results.
20	Detection of condom lubricants and starches in the presence of biologicals by diffuse reflectance infrared fourier transform spectroscopy and polarized light microscopy Moody, Hannah Leigh January 2013 (has links) Condoms have been used in sexual assaults as a means of preventing the transmission of biological fluids. Current sexual assault evidence collection kit processing protocols do not regularly take advantage of the information that can be gathered by examining residues left by condoms during intercourse. A biphasic liquid-liquid extraction technique was developed to separate polar and non-polar condom residues, which had been collected on cotton tipped swabs. This research involved the examination of twenty condom brands by Diffuse Reflectance Infrared Fourier Transform Spectroscopy. Five brands were selected to examine the consistency of this technique when the lubricants were exposed to body and storage temperature conditions for various times and in the presence of oral, vaginal, and blood samples. Additionally, starches collected from the condoms under each of the above conditions were examined. Although all lubricants were identifiable using this IR technique, the nonoxynol-9 (spermicide) containing samples produced spectra which were not identical to those produced by nonoxynol-9 standards. Although there was a decrease in the percent transmittance within IR spectra as the time between the collection and the extraction of the swabs increased, the condom residues of interest remained identifiable at all time points examined. The use of vaginal and oral swabs in the collection caused a negligible amount of background interference, which could be eliminated through spectral subtraction of the swab. Forensic science Bioforensics Polarized light microscopy

Search results