Tesis sobre el tema "Super resolution spectroscopy"
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Wintz, Timothée. "Super-resolution in wave imaging". Thesis, Paris Sciences et Lettres (ComUE), 2017. http://www.theses.fr/2017PSLEE052/document.
Texto completoDifferent modalities in wave imaging each present limitations in terms of resolution or contrast. In this work, we present a mathematical model of the ultrafast ultrasound imaging modality and reconstruction methods which can improve contrast and resolution in ultrasonic imaging. We introduce two methods which allow to improve contrast and to locate blood vessels belowthe diffraction limit while simultaneously estimating the blood velocity. We also present a reconstruction method in electrical impedance tomography which allows reconstruction of microscopic parameters from multi-frequency measurements using the theory of homogenization
Vogelsang, Jan. "Advancing single-molecule fluorescence spectroscopy and super-resolution microscopy with organic fluorophores". Diss., kostenfrei, 2009. http://edoc.ub.uni-muenchen.de/11480/.
Texto completoWang, Ruixing. "STED-fluorescence correlation spectroscopy for dynamic observations in cell biology : from theoretical to practical approaches". Thesis, Aix-Marseille, 2018. http://www.theses.fr/2018AIXM0163/document.
Texto completoSuper-resolution techniques offer new insight into the description of the dynamic molecular organization at the plasma membrane. Among these techniques, the stimulated emission depletion (STED) microscopy breaks the optical diffraction limit and reaches the resolution of tens of nanometer. It is a versatile setup that can be combined with other techniques such as fluorescence correlation spectroscopy (FCS), providing both high spatial and temporal resolutions to explore dynamic processes occurring in live cells. This PhD project aims at implementing a STED microscope, and then at combining this STED module with FCS technique for biological applications. Detailed theoretical studies on STED and the combined STED-FCS technique in spatio-temporal aspects were performed. An analytical solution for FCS autocorrelation function was derived in the condition of incomplete STED depletion and a new FCS fitting model was proposed to overcome this problem. The spot variation FCS (svFCS) method has demonstrated its capability to identify the presence of nanodomains constraining the lateral diffusion of molecules at the plasma membrane. The STED-FCS can extend the svFCS approach to the nanoscale evaluating the long-lasting existence of such nanodomains. Within this frame, preliminary Monte Carlo simulations were conducted mimicking molecules diffusing in the presence of dynamic self-assembling/disassembling nanodomains
Nicovich, Philip R. "Widefield fluorescence correlation spectroscopy". Diss., Georgia Institute of Technology, 2010. http://hdl.handle.net/1853/33849.
Texto completoChristou, Nina-Eleni. "Development of NMR as a tool for the structural and dynamic high-resolution characterization of phototranformable fluorescent proteins". Thesis, Université Grenoble Alpes, 2020. http://www.theses.fr/2020GRALY051.
Texto completoThe discovery of Phototransformable Fluorescent proteins (PTFPs) over the last decades has revolutionized the field of microscopy. Reversibly photo-switchable fluorescent proteins (RSFPs), in particular, are currently routinely used for Super Resolution Microscopy techniques, such as RESOLFT (REversible Saturable OpticaL Fluorescence Transitions). Photo-induced switching between a fluorescent "on"- and a dark "off"-state, in combination with advanced illumination schemes has allowed for imaging nanometer sized compartments in biological cells. Crystallographic studies of such RSFPs have provided useful mechanistic explanations for their photophysical behaviour and has guided fluorescent protein engineering into designing better tags. However, the crystal forms of such proteins studied at cryogenic temperatures fail to capture dynamics present in RSFPs which could potentially play a significant role in their photophysics. So far, only a single NMR study for the RSFP Dronpa has been reported in the literature (Mizuno, 2008). During my PhD thesis, I was able to complement crystallographic studies of rsFolder, a green RSFP, with a dynamic perspective using multidimensional solution NMR spectroscopy.Using a portable in-situ laser illumination device coupled with the NMR spectrometer, I was able to extract quantitative local dynamic information for both the fluorescent "on"- and "off"-states of rsFolder, characterized by a primarily cis and trans chromophore, respectively. NMR signatures of residues in the non-fluorescent "off"-state were identified using LASER-driven Exchange NMR experiments. The metastable photo-induced "off"-state of rsFolder appears more dynamic on the millisecond timescale than the fluorescent "on"-state. NMR investigations of the chromophore resulted in the deciphering of four configurations, populated in a pH-dependent fashion. Moreover, pH-induced cis-trans isomerization of the chromophore was observed, in the absence of light. NMR-derived values of activation energies for isomerization and free energy differences between the cis and trans chromophore enabled the mapping of the ground-state free energy landscape of rsFolder at different pH values and buffer compositions. Lastly, comparing NMR observables with optical measurements on rsFolder and mutants highlights the potential role that NMR can play in the field of RSFP engineering. Altogether, my PhD work yielded in not only a reliable in-situ illumination set-up accompanied with relevant NMR experiments to study RSFPs, but also highlighted the importance of dynamics in understanding RSFPs' photophysical properties
Patton, Randy Alexander. "Utilizing DNA Nanostructures for the study of the Force Dependency of Receptor – Ligand Interactions". The Ohio State University, 2017. http://rave.ohiolink.edu/etdc/view?acc_num=osu1503071673023257.
Texto completoGraciani, Guillaume. "Three-dimensional stochastic interferometry : theory and applications to high-sensitivity optical metrology and light scattering amplification Random dynamic interferometer:cavity amplified speckle spectroscopy using a highly symmetric coherent fieldcreated inside a closed Lambertian optical cavity 3D stochastic interferometry detects picometer dynamics of an optical volume Cavity Amplified Speckle Spectroscopy expands lightscattering methods to transparent or miniature samples Super-resolution provided by the arbitrarily strongsuperlinearity of the blackbody radiation". Thesis, Institut polytechnique de Paris, 2020. http://www.theses.fr/2020IPPAX058.
Texto completoThe power of optical metrology generally requires simple geometries with precise alignment and well controlled optical phases. In the present thesis, we develop instead the notion of chaos interferometry, using an optical field with maximal geometric disorder and phase randomness. We show that stochasticity leads to a very high interferometric sensitivity and opens up the possibility for a wide range of new optical measurements and a new method we call Cavity Amplified Speckle Spectroscopy.The key idea is to inject a very small bandwidth monochromatic laser into a cavity with high albedo Lambertian reflectivity, which acts as a high-gain random resonator. A 3D coherent Lambertian billiard is obtained, filled with a 3D random field that is statistically uniform in space and invariant by rotation. At any given point P, it can be described as the coherent superposition of a large number of plane waves randomly taken from a unique statistical distribution that independently combines (1) a spherically symmetric distribution of the wave vector on a sphere ||k||=k0, with (2) a uniform distribution of the phase on [0,2pi], and (3) a uniformly distributed polarization state on the Poincarré sphere. The resulting random 3D speckle pattern remains constant with time as long as the diffusion of the laser’s wavelength can be neglected. At longer times however, it behaves ergodically. This work represents the first experimental realization of the notion of a 3D random field proposed by Berry, and it also relates to the investigations on classical light entanglement. The concepts of high-gain random resonator, or coherent Lambertian billiard, correspond to a new kind of field in optics, that obeys neither the wave equation nor the diffusion equation, and should lead to new theoretical and experimental investigations.Practically, with a slow enough diffusion of the input phase and a small enough photon-number noise, the speckle intensity field fluctuates and becomes ergodic only if the geometry of the cavity is not constant, or if it contains a medium with a non-constant optical path length distribution or polarization. Using intensity decorrelation spectra obtained between 100 MHz and 0.01 Hz from single speckles, we show the possibility to measure picometer variations of the cavity geometry and to detect sub-angstrom motion of scatterers in solutions. Chaos interferometry can also be used to amplify previously undetectable scattering signals, and we show a miniaturized light scattering setup working with microliter volumes and quasi-transparent systems. A patent was filled for a range of applications including seismic and acoustic vibration sensing, laser phase noise characterization and measurements of highly diluted and poorly scattering samples
Abboud, Feriel. "Restoration super-resolution of image sequences : application to TV archive documents". Thesis, Paris Est, 2017. http://www.theses.fr/2017PESC1038/document.
Texto completoThe last century has witnessed an explosion in the amount of video data stored with holders such as the National Audiovisual Institute whose mission is to preserve and promote the content of French broadcast programs. The cultural impact of these records, their value is increased due to commercial reexploitation through recent visual media. However, the perceived quality of the old data fails to satisfy the current public demand. The purpose of this thesis is to propose new methods for restoring video sequences supplied from television archive documents, using modern optimization techniques with proven convergence properties. In a large number of restoration issues, the underlying optimization problem is made up with several functions which might be convex and non-necessarily smooth. In such instance, the proximity operator, a fundamental concept in convex analysis, appears as the most appropriate tool. These functions may also involve arbitrary linear operators that need to be inverted in a number of optimization algorithms. In this spirit, we developed a new primal-dual algorithm for computing non-explicit proximity operators based on forward-backward iterations. The proposed algorithm is accelerated thanks to the introduction of a preconditioning strategy and a block-coordinate approach in which at each iteration, only a "block" of data is selected and processed according to a quasi-cyclic rule. This approach is well suited to large-scale problems since it reduces the memory requirements and accelerates the convergence speed, as illustrated by some experiments in deconvolution and deinterlacing of video sequences. Afterwards, a close attention is paid to the study of distributed algorithms on both theoretical and practical viewpoints. We proposed an asynchronous extension of the dual forward-backward algorithm, that can be efficiently implemented on a multi-cores architecture. In our distributed scheme, the primal and dual variables are considered as private and spread over multiple computing units, that operate independently one from another. Nevertheless, communication between these units following a predefined strategy is required in order to ensure the convergence toward a consensus solution. We also address in this thesis the problem of blind video deconvolution that consists in inferring from an input degraded video sequence, both the blur filter and a sharp video sequence. Hence, a solution can be reached by resorting to nonconvex optimization methods that estimate alternatively the unknown video and the unknown kernel. In this context, we proposed a new blind deconvolution method that allows us to implement numerous convex and nonconvex regularization strategies, which are widely employed in signal and image processing
Venturi, Linda. "Etude des propriétés de photoluminescence de nano-matériaux sous champ électrique intense". Thesis, Normandie, 2019. http://www.theses.fr/2019NORMR118.
Texto completoIn this thesis, the Laser-assisted Atom Probe Tomography is coupled in-situ with a photoluminescence (PL) bench, where the pulsed laser radiation is used to trigger the ion evaporation from the specimens and, simultaneously, to activate the emission from optically active centers present into the material. For this work, two different materials were selected: diamond nano-needles with embed- ded optically active defects (color centers) and a ZnO/(Mg,Zn)O multi-quantum-well (MQW) heterostructure, which contains quantum emitters of different thicknesses. Thanks to this original photoluminescence setup, the influence of the electric field on the fine structure of some color centers, embedded into the diamond nanoneedles, was observed. The first study focused on the neutral nitrogen-vacancy center (NV0), which is one among the most studied color centers in literature. The evolution of the NV0 optical signature, as a function of the applied bias, allowed to evaluate the mechanical stress (> 1 GPa) and the electric-field acting on diamond tips. These results demon- strate an original new method to perform contactless piezo-spectroscopy of nanoscale systems under uniaxial tensile stress, generated by the electric field. This method was applied also on another color center, which nature is still not clear in literature, emitting at 2.65 eV, and more sensitive than the NV0 color centers to the stress/strain field. New results on its opto-mechanical properties were obtained, but its identity still needs to be understood. Since the evaporation field of diamond is really high, the diamond nanoneedles were not analyzed using La-APT. Therefore the coupled in-situ technique was applied in order to study the ZnO/(Mg,Zn)O MQW heterostructure, accessing to the structure, composition and optical signature of the probed specimen in only one experiment. The photoluminescence spectra acquired by the specimen during its ongoing evaporation represents a unique source of information for the understanding of the mechanism of light-matter interaction and the physics of photoemission under high electric field. The correlation of the structural and optical information, related to this MQW heterostructure, demonstrates that the coupled in-situ technique can overlap the diffraction limit of the PL laser and that, as done for the diamond nanoneedles, is pos- sible to estimate the induced-tensile-stress. The results achieved by the in-situ coupling of the La-APT technique with the PL spec- troscopy show that such instrument is an innovative and powerful technique to perform research at the nanometric scale. For this reason, this work can open new perspectives for a deeply understanding of the physicics related to the studied systems in parallel with the continuous enhancement of the experimental setup
Raynaud, Christophe. "Spectroscopie d'absorption et d'émission des excitons dans les nanotubes de carbone". Thesis, Sorbonne Paris Cité, 2018. http://www.theses.fr/2018USPCC199/document.
Texto completoThe optical properties of carbon nanotubes are ideally described by the physicsof a one-dimensional object, giving rise in particular to the emergence of excitons todescribe the optical transitions of these objects. The optical experiments (emission,absorption) carried out on these objects at ambient temperature and on ensemblesconfirm the theoretical predictions based on the physics of 1D objects. But atcryogenic temperature and at the single emitter scale, the optical properties observedexperimentally are systematically different from those of a 1D object. One can citethe emergence of properties such as photon antibunching, which largely contributed tothe intensification of research on these objects for applications in quantum photonics.These properties are attributed to the localization of excitons along the nanotube axisin local potential wells (traps) created randomly by the interaction of nanotubes withtheir environment. The optical properties are then close to those of 0D objects, andare strongly modulated by the environment. The mechanisms and the origin of thelocalization and the physical knowledge of these traps are still very limited. This workshows on the one hand the development of an absorption setup on individual objectand the characterization of its sensitivity, and on the other hand the statistical studyof the emission of nanotubes at cryogenic temperature in a micro-photoluminescencesetup. The results obtained in the later setup by a super-resolution technique coupledwith hyper-spectral imaging show the characteristic quantities of potential wellswithin individual nanotubes. An experimental excitation-resolved photoluminescencesetup implemented during this work also showed a modification of the fundamentalexcitonic state by the environment, with the emergence of a spatial and spectraldiscretization of the delocalized ground state in a multitude of localized states
Ring, Josh. "Novel fabrication and testing of light confinement devices". Thesis, University of Manchester, 2016. https://www.research.manchester.ac.uk/portal/en/theses/novel-fabrication-and-testing-of-light-confinement-devices(51572720-0c49-482e-8523-e44ca877117f).html.
Texto completoMarin, Yoan. "Développement de nouvelles techniques de Super résolution de séquences vidéo : Vers une implémentation temps réel sur Smart Caméra". Thesis, Bourgogne Franche-Comté, 2020. http://www.theses.fr/2020UBFCK050.
Texto completoThese thesis works are part of an european project aiming to design a very hight resolution (8k) video camera. Within this project our team had the task of working on two technological aspects: (1) the design of a demonstrator carrying out a realtime deconvolution of a video stream coming from a very high resolution camera created by the consortium , (2) the design of a prototype allowing to increase the resolution and the level of detail of video streams from an input resolution of 4k to 8k using Super Resolution (SR) methods. This manuscript mainly presents the work related to the creation of the prototype realizing a Super Resolution method. In order to be able to assess the qualitative contribution of SR, a study on the relevance of the metrics is carried out in order to select the most suitable metrics for evaluating image quality improvement processes. Then, a new method of Spatial SR named LASSR for Local Adaptive Spatial Super Resolution was implemented to correct certain artefacts observed with a State of the Art SR method. Our method allows to locally adapt the processing according the texture, this adaptation is carried out automatically using a decision model generated during supervised learning. Following the validation of our method by a panel of experts during a psychovisual assesment, the IP module was developed to operate with very large volumes of data on FPGA targets and to operate in real time. A toolbox of components has been created in order to describe the module in a generic way. This allows the LASSR module to be adapted to different configurations (image size, pixel dynamics . . .). The major element of this toolbox is the generic 2-D convolution filter : its size and its coecients can be tuned (the FPGA chip limits this filter). Encouraging results have been obtained regarding the increase in resolution for a 4k grayscale output image, it is possible for a single LASSR module to achieve an output frequency of 17.03 fps. On the FPGA of the Xilinx VC707 development board, it is theoretically possible to reach a frequency of 136.2 fps by parallelizing 8 LASSR modules
Delbany, Maya. "Acquisition IRM optimisée en vue du dépistage du cancer du sein". Thesis, Université de Lorraine, 2019. http://www.theses.fr/2019LORR0018/document.
Texto completoDiffusion-weighted imaging (DWI) is a promising tool to increase the specificity of MRI for breast cancer screening. However, the field of view covering the breasts makes the DWI at high resolution difficult and the images obtained have low signal-to-noise ratios (SNR). The current DWI techniques are limited by the spatial resolution, mainly a slice thickness greater than or equal to 3 mm. In this work, an isotropic DWI method was developed to obtain high resolution isotropic images (1x1x1 mm3) covering the entire breast. These images are obtained by combining: (i) a readout-segmented DW-EPI sequence (rs-EPI), with several segments of k-space and echo navigator providing high in-plane resolution, (ii) a super-resolution (SR) strategy, which consists of acquiring three datasets with thick slices (3 mm) and 1mm-shifts in the slice direction, (iii) and combining them into a 1x1x1 mm3 dataset using a dedicated reconstruction. Several SR reconstruction schemes were investigated, based on different regularizations. The proposed SR strategy was compared to native 1x1x1 mm3 acquisitions (i.e. with 1 mm slice thickness) on eight healthy subjects, and synthetics phantoms. To validate the SR method, we used several methods: Monte Carlo simulations, SNR measurements and sharpness metrics, the apparent diffusion coefficient (ADC) values in normal breast tissue and breast diffusion/resolution phantom were also compared. A new clinical research protocol is proposed to evaluate the effectiveness of the high resolution diffusion sequence on breast cancer screening. The aim of this protocol is to replace the contrast-enhanced perfusion by the diffusion sequence for screening
Boschetti, Alice. "Experiments on random lasers: a novel method for super-resolution spectroscopy". Doctoral thesis, 2020. http://hdl.handle.net/2158/1191813.
Texto completoVogelsang, Jan [Verfasser]. "Advancing single-molecule fluorescence spectroscopy and super-resolution microscopy with organic fluorophores / submitted by Jan Vogelsang". 2009. http://d-nb.info/100228712X/34.
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