Ferroelectric domain engineering and characterization for photonic applications

Grilli, Simonetta

January 2006

Lithium niobate (LiNbO3) and KTiOPO4 (KTP) are ferroelectric crystals of considerable interest in different fields of optics and optoelectronics. Due to its large values of the nonlinear optical, electro-optic (EO), piezoelectric and acousto-optical coefficients, LiNbO3 is widely used for laser frequency conversion using the quasiphase matching (QPM) approach where the sign of nonlinearity has been periodically modulated by electric field poling (EFP). In the microwave and telecommunication field LiNbO3 is used for surface acoustic devices and integrated optical modulators. KTP and its isomorphs, on the other hand, exhibit slightly lower nonlinear coefficients but have much higher photorefractive damage thresholds, so that it is mainly used in the fabrication of QPM devices for both UV, IR and visible light generation and in high power applications. This thesis focus on different key issues: (1) accurate characterization of specific optical properties of LiNbO3, which are of interest in nonlinear and EO applications; (2) in-situ visualization and characterization of domain reversal by EFP in LiNbO3 and KTP crystals for a through understanding of the ferroelectric domain switching; (3) fabrication of periodic surface structures at sub-micron scale in LiNbO for photonic applications. An interferometric method is used for accurate measurement of ordinary and extraordinary refractive indices in uniaxial crystals, which is of great interest in the proper design of QPM crystals. A digital holography (DH) based method is presented here for 2D characterization of the EO properties of LiNbO , which is considerably interesting in the applications where the proper design of the EO device requires a spatially resolved information about the EO behaviour and the existing pointwise techniques are not sufficient. A DH method for novel in-situ monitoring of domain reversal by EFP in both LiNbO3 and KTP, is also presented here. The technqiue could be used as a tool for high fidelity periodic domain engineering but also provides information about domain kinetics, internal field and crystals defects. 3 3 3 Finally this thesis presents novel results concerning nanoscale periodic surface structuring of congruent LiNbO3. Holographic lithography (HL) is used for sub-micron period resist patterning and electric overpoling for surface domain reversal. Surface structures are obtained by selective etching. Moiré effect is also used in the HL to fabricate complicated structures with multiple periods. The depth compatibility with waveguide implementation allows foreseeing possible applications of these structures for Bragg gratings or innovative photonic crystal devices, exploiting the additional nonlinear and EO properties typical of LiNbO3. / QC 20100824

LiNbO

KTiOPO

interferometry

digital holography

electric field poling

electro-optic materials

holographic lithography

ferroelectric domains

nanostructures

microstructures

Optical physics

Optisk fysik

Searching for long transient gravitational waves in the LIGO-Virgo data

Franco, Samuel

03 July 2014

This thesis presents the results of the STAMPAS all-sky search for long transient gravitational waves in the 2005-2007 LIGO-Virgo data. Gravitational waves are perturbations of the space-time metric. The Virgo and LIGO experiments are designed to detect such waves. They are Michelson interferometers with 3 km and 4 km long arms, whose light output is altered during the passage of a gravitational wave.Until very recently, transient gravitational wave search pipelines were focused on short transients, lasting less than 1 second, and on binary coalescence signals. STAMPAS is one of the very first pipelines entirely dedicated to the search of long transient gravitational wave signals, lasting from 1s to O(100s).These signals originate, among other sources, from instabilities in protoneutron stars as a result of their violent birth. The standing accretion shock instability in core collapse supernovae or instabilities in accretion disks are also possible mechanisms for gravitational wave long transients. Eccentric black hole binary coalescences are also expected to emit powerful gravitational waves for several seconds before the final plunge.STAMPAS is based on the correlation of data from two interferometers. Time-frequency maps of the data are extracted, and significant pixels are clustered to form triggers. No assumption on the direction, the time or the form of the signals is made.The first STAMPAS search has been performed on the data from the two LIGO detectors, between 2005 and 2007. After a rigorous trigger selection, the analysis revealed that their rate is close to Gaussian noise expectation, which is a significant achievement. No gravitational wave candidate has been detected, and upper limits on the astrophysical rates of several models of accretion disk instability sources and eccentric black holes binary coalescences have been set. The STAMPAS pipeline demonstrated its capabilities to search for any long transient gravitational wave signals during the advanced detector era.Keywords: Gravitational waves, Interferometry, Long transients, Signal Processing, Accretion Disk Instabilities, Eccentric Black Hole Binaries.

Gravitational waves

Interferometry

Long transients

Signal Processing

The Advanced Virgo Gravitational wave detector : Study of the optical design and development of the mirrors

Bonnand, Romain

27 September 2012

Gravitational waves have been predicted by Einstein in his General Relativity theory. Theyare perturbation of the space-time metric and we try to reveal them by laser interferometry. More precisely,gravitational wave detectors are km long Michelson interferometers combined with Fabry-Perot cavities.The network of first generation detectors (Virgo, LIGO, GEO) did not permit a direct detection afterseveral observational runs in coincidence at the nominal sensitivity. A second generation of detectors is inpreparation with in particular the European project Advanced Virgo. This detector should have a sensitivityincreased by an order of magnitude compared to Virgo. The interferometer mirrors play a crucial role inthe Advanced Virgo sensitivity as it is limited by the mirror thermal noise in the mid-frequency regionand by the amount of photons collected in the interferometer cavities at high frequencies. The high powercirculating in the Fabry-Perot cavities induces important thermal lensing effect. This thesis is interestedfirst in the thermal lensing effect in the interferometer for different optical configurations. Then we areinterested in the mirrors composing the Fabry-Perot arm cavity from the calculation of the requirements interms of flatness to the realization of the mirrors flatness and its measurement. The mirror flatness shouldbe sub-nanometric in order to limit the optical losses in the Fabry-Perot cavities to reduce the effect of theshot noise and of the diffused light. We will see the correction of the substrates flatness by the so-calledcorrective coating technique. Finally, we study the uniformity of the dielectric multilayer coating depositionnecessary to obtained high-reflective mirrors. We study in particular the planetary motion of the substratesin the coating machine.

Gravitational waves

Interferometry

Advanced Virgo

Thin films

Fabry-Perot cavity

Corrective coating

Metrology

Contributions to the characterization of grating-based x-ray phase-contrast imaging

Chabior, Michael

28 December 2011

In this work, a characterization and optimization of the grating-based x-ray imaging technique is presented. The investigations are introduced by analytical considerations, are underpinned with numerical simulations and validated using exemplary experiments. A detailed examination of the image formation in a grating interferometer is given, highlighting the dependence of the measured signal on the profile of the gratings. Subsequently, it is shown analytically and in experiments that grating-based imaging can be performed using three basic grating arrangements, which differ in their requirements on grating fabrication and experimental implementation. By a characterization of the measurement signal for each arrangement, a dependence of the signal strength on the sample position within the interferometer is identified. The consecutive evaluation of the impact of this position dependence on radiographic and tomographic data leads to the derivation of optimized reconstruction algorithms and to a correction of resulting image artifacts. Additionally, it is shown that the simultaneous measurement of attenuation and phase images allows the determination of the atomic number of the sample, opening new possibilities for material discrimination. Apart from these investigations on the contrast formation, various imperfections of the technique are investigated: The properties of the image noise are examined in a detailed statistical analysis, yielding a fundamental understanding of the signal-to-noise behavior of the three available contrast channels. Additionally, beam-hardening artifacts at polychromatic x-ray sources are investigated and their correction by a linearization approach is resented. By a subsequent analysis of the influence of various different grating imperfections on the image quality, tolerance limits for grating fabrication are specified. Furthermore, analytical considerations show that gratings with a duty cycle of 1/3 are advantageous with respect to the signal-to-noise ratio in comparison to common gratings with a duty cycle of 1/2. In conclusion, the results, concepts and methods developed in this work broaden the understanding of grating-based x-ray imaging and constitute a step forward towards the practical implementations of the technique in imaging applications.

Röntgenbildgebung

Phasenkontrast

Medizinische Bildgebung

Interferometrie

X-ray imaging

phase contrast

medical imaging

interferometry

ddc:530

ddc:535

rvk:UM 2280

rvk:YR 2200

Study of Sn-Ag-Cu reliability through material microstructure evolution and laser moire interferometry

Tunga, Krishna Rajaram

08 July 2008

This research aims to understand the reliability of Sn-Ag-Cu solder interconnects used in plastic ball grid array (PBGA) packages using microstructure evolution, laser moiré interferometry and finite-element modeling. A particle coarsening based microstructure evolution of the solder joint material during thermal excursions was studied for extended periods of time lasting for several months. The microstructure evolution and particle coarsening was quantified, and acceleration factors were determined between benign field-use conditions and accelerated thermal cycling (ATC) conditions for PBGA packages with different form factors and for two different lead-free solder alloys. A new technique using laser moiré interferometry was developed to assess the deformation behavior of Sn-Ag-Cu based solder joints during thermal excursions. This technique can used to estimate the fatigue life of solder joints quickly in a matter of few days instead of months and can be extended to cover a wide range of temperature regimes. Finite-element analysis (FEA) in conjunction with experimental data from the ATC for different lead-free PBGA packages was used to develop a fatigue life model that can be used to predict solder joint fatigue life for any PBGA package. The proposed model will be able to predict the mean number of cycles required for crack initiation and crack growth rate in a solder joint.

Fatigue life prediction

Solder joint fatigue

Microstructure evolution

SAC405

SAC305

Laser moire interferometry

Finite element modeling

Lead-free solders

Moiré method

Ball grid array technology

Electronic packaging

Piezoelectric coefficients of gallium arsenide, gallium nitride and aluminium nitride

Muensit, Supasarote

January 1999

"1998"--T.p. / Thesis (PhD)--Macquarie University, School of Mathematics, Physics, Computing and Electronics, 1999. / Includes bibliographical references. / Introduction -- A Michelson interferometer for measurement of piezoelectric coefficients -- The piezoelectric coefficient of gallium arsenide -- Extensional piezoelectric coefficients of gallium nitrides and aluminium nitride -- Shear piezoelectric coefficients of gallium nitride and aluminium nitride -- Electrostriction in gallium nitride, aluminium nitride and gallium arsenide -- Summary and prognosis. / The present work represents the first use of the interferometric technique for determining the magnitude and sign of the piezoelectric coefficients of III-V compound semiconductors, in particular gallium arsenide (GaAs), gallium nitride (GaN), and aluminium nitride (AIN). The interferometer arrangement used in the present work was a Michelson interferometer, with the capability of achieving a resolution of 10⁻¹³ m. -- The samples used were of two types. The first were commercial wafers, with single crystal orientation. Both GaAs and GaN were obtained in this form. The second type of sample was polycrystalline thin films, grown in the semiconductor research laboratories at Macquarie University. GaN and AIN samples of this type were obtained. -- The d₁₄ coefficient of GaAs was measured by first measuring the d₃₃ value of a [111] oriented sample. This was then transformed to give the d₁₄ coefficient of the usual [001] oriented crystal. The value obtained for d₁₄ was (-2.7 ± 0.1) pmV⁻¹. This compares well with the most recent reported measurements of -2.69 pmV⁻¹. The significance of the measurement is that this represents the first time this coefficient has been measured using the inverse piezoelectric effect. -- For AIN and GaN samples, the present work also represents the first time their piezoelectric coefficients have been measured by interferometry. For GaN, this work presents the first reported measurements of the piezoelectric coefficients, and some of these results have recently been published by the (Muensit and Guy, 1998). The d₃₃ and d₃₁ coefficients for GaN were found to be (3.4 ± 0.1) pmV⁻¹ and (-1.7 ± 0.1) pmV⁻¹ respectively. Since these values were measured on a single crystal wafer and have been corrected for substrate clamping, the values should be a good measure of the true piezoelectric coefficients for bulk GaN. -- For AIN, the d₃₃ and d₃₁ coefficients were found to be (5.1 ± 0.2) pmV⁻¹, and (-2.6 ± 0.1) pmV⁻¹ respectively. Since these figures are measured on a polycrystalline sample it is quite probable that the values for bulk AIN would be somewhat higher. / The piezoelectric measurements indicate that the positive c axis in the nitride films points away from the substrate. The piezoelectric measurements provide a simple means for identifying the positive c axis direction. -- The interferometric technique has also been used to measure the shear piezoelectric coefficient d₁₅ for AIN and GaN. This work represents the first application of this technique to measure this particular coefficient. The d₁₅ coefficients for AIN and GaN were found to be (-3.6 ± 0.1) pmV⁻¹ and (-3.1 ± 0.1) pmV⁻¹ respectively. The value for AIN agrees reasonably well with the only reported value available in the literature of -4.08 pmV⁻¹. The value of this coefficient for GaN has not been measured. -- Some initial investigations into the phenomenon of electrostriction in the compound semiconductors were also performed. It appears that these materials have both a piezoelectric response and a significant electrostrictive response. For the polycrystalline GaN and AIN, the values of the M₃₃ coefficients are of the order of 10⁻¹⁸ m²V⁻². The commercial single crystal GaN and GaAs wafers display an asymmetric response which cannot be explained. / Mode of access: World Wide Web. / Various pagings ill

Gallium nitride semiconductors

Aluminum nitride semiconductors

Piezoelectricity -- Measurement

Piezoelectric semiconductors

Gallium arsenide semiconductors

The design of a two-element correlation interferometer operating at L-band

Jansen van Rensburg, Juan-Pierre

12 1900

Thesis (MScEng)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: This thesis describes the design and construction of a two-element digital correlation interferometer operating at 1.42 GHz. This instrument consists of two 92cm off set-parabolic reflectors arranged in an east-west baseline, with a maximum length of 24m. The reflectors are out-fi tted with helical beam antennas as primary feeds, and are further equipped with low-noise front-ends. A wideband dual-conversion superheterodyne receiver processes the astronomical signals before digitisation. The receiver is implemented as far as possible using a ffordable off -the-shelf technologies. The cross-correlation between the two antenna signals is measured using a 256MHz bandwidth digital FX correlator, and is implemented on a Reconfi gurable Open Architecture for Computing Hardware (ROACH) board. The preliminary observations made with this interferometer, suggests that it is possible to detect the sun, and some other much weaker sources such as Taurus A. The design of an interferometer in general is presented, from the formulation of the underlying instrumental requirements, to making meridian drift scan observations. The interferometer developed may serve as a demonstrator for other engineering students to gain a working knowledge of radio interferometry, which should prove invaluable when addressing the challenges the Square Kilometre Array (SKA) is faced with. / AFRIKAANSE OPSOMMING: In hierdie tesis word die ontwerp en konstruksie van 'n twee-element digitale korrelasie interferometer wat by 1.42 GHz ontvang beskryf. Die instrument bestaan uit twee 92 cm afsetparaboliese re ektorantennas met 'n oos-wes basislyn, met maksimum lengte 24 m. Heliese antennas word gebruik as primêre voer vir die reflektors, en verder maak die voorent gebruik van laeruis versterkers . Die wyeband superheterodineontvanger verwerk die astronomiese seine in twee stappe voordat dit digitaliseer word. Bekostigbare kommersiëele komponente word gebruik in die vervaardiging van die ontvanger. Die kruiskorrelasie tussen die twee antenna seine word digitaal gemeet deur 'n FX korreleerder met 'n 256MHz bandwydte op 'n ROACH bord. Die resultate toon aan dat dit moontlik is om die son waar te neem, sowel as sommige ander swakker bronne, soos Taurus A. Al die kwessies insluitende die instrumentale vereistes betrokke by die ontwerp van 'n interferometer word bespreek. Verder word die gebruik van interferometers om meridiaan meetings te doen bespreek. Die interferometer dien as 'n praktiese demonstrasie van radio interferometrie vir ingenieurstudente. Hierdie demonstrasie is voordelig vir studente om die uitdagings van die SKA te bestudeer.

Radio astronomy

Interferometry

Noise temperature

Aperture synthesis

Brightness

Visibility

Sensitivity

Noise figure

Radio-frequency interference

Dissertations -- Electronic engineering

Theses -- Electronic engineering

Avaliação da adaptação entre implantes e pilar protético do tipo hexágono externo considerando a rugosidade superficial / Evaluation of adaptation between implant and prosthetic abutment hexagon external type considering the roughness surface

Sak, Luiz Fernando de Moura

13 December 2016

No Brasil o numero de pacientes deficientes orais ainda é crescente, o edentulismo é caracterizado como uma condição evitável em que um ser humano tem perda completa dos dentes, que, segundo a organização mundial da saúde, surge em a consequência de um sistema de saúde deficiente que afeta a saúde geral da população, bem como a sua qualidade de vida. Com objetivo de tratar esta deficiência surgem os implantes dentários, uma das modalidades mais praticadas na atualidade em ciências médicas, com uma taxa de sobrevida de 95% a longo prazo em estudos publicados. O objetivo deste trabalho foi avaliar por meio de interferometria ótica 3D as superfícies de união de implantes Hexágono externo e seu pilar protético universal de quatro marcas vendidas no mercado nacional, quanto seus parâmetros de lisura Sa (rugosidade média) e mensurar metricamente o nível de adaptação entre o pilar protético e implantes utilizando microscopia eletrônica de varredura. Foram escolhidas quatro marcas de implantes do tipo hexágono externo e quatro pilares protéticos do tipo universal para próteses cimentadas de quatro diferentes fabricantes disponíveis no mercado brasileiro, para cada amostra implante ou pilar protético foram feita 06 medições para estabelecer uma média de rugosidade das superfícies sob os parâmetros de rugosidade Sa, Ssk e Sku, na sequência unidas e realizadas 06 medições em MEV para avaliar a qualidade do gap. Após a avaliação, os dados foram submetidos a ANOVA, teste t (0,05) e regressão linear dos dados. Onde descarta-se a hipótese igualdade entre as marcas com 95% de confiança para os parâmetros Sa e Gap, porém o teste “t”dois fatores revelam igualdade entre as marcas 01 e 02 para o valor de Sa e Gap nos implantes e igualdade entre as marcas 01 e 03 dos valores Sa dos pilares protéticos. / In Brazil the number of oral deficient patients is still increasing, edentulismo is characterized as an avoidable condition in which a human being has complete loss of teeth, which, according to the world health organization, arises in the consequence of a poor health system Which affects the general health of the population, as well as their quality of life. In order to treat this deficiency, dental implants arise, one of the most practiced modalities in the medical sciences today, with a 95% long-term survival rate in published studies. The objective of this work was to evaluate the external bonding surfaces of the external Hexagon implants and its universal prosthetic pillar of four brands sold in the Brazilian market through its 3D optical interferometry, as well as its smoothness parameters (mean roughness) and to measure the adaptation level Between the prosthetic abutment and implants using scanning electron microscopy. Four brands of external hexagon type implants and four universal type prosthetic abutments were selected for cemented prostheses from four different manufacturers available in the Brazilian market. For each implant sample or prosthetic abutment, measurements were made to establish a roughness mean of the surfaces under Roughness parameters Sa, Ssk and Sku, in the sequence joined and performed 06 MEV measurements to evaluate the quality of the gap. After the evaluation, the data were submitted to ANOVA, t test (0.05) and linear regression of the data. Where the hypothesis equality between the brands with 95% confidence for the Sa and Gap parameters is discarded, but the "t" test two factors reveals equality between the 01 and 02 marks for the value of Sa and Gap in the implants and equality between Marks 01 and 03 of the values Sa of the prosthetic abutments.

Implantes dentários

Aspereza de superfície

Interferometria

Odontologia

Engenharia biomédica

Dental implants

Surface roughness

Interferometry

Dentistry

Biomedical engineering

Engenharia Biomédica

Nonlinear control system based on variable structure and sliding modes for two beam optical interferometry /

Martin, Roberta Irma.

January 2018

Orientador: Cláudio Kitano / Resumo: Este trabalho apresenta um estudo teórico e experimental de um sistema de controle não linear baseado em estrutura variável e modos deslizantes desenvolvido para interferômetro de dois feixes. O sistema proposto apresenta alta precisão, robustez e, além disso, é simples e de baixo custo, aumentando a capacidade de medição para diferentes aplicações de sensores interferométricos. Comparado a outras técnicas de controle aplicadas a interferometria óptica, esta técnica apresenta importantes vantagens e leva em consideração a característica não linear do interferometro, aumentando seu poder de medição. Consequentemente, um circuito de reset não é necessário, o interferometro pode trabalhar em ambientes com grandes perturbações, a montagem e ajuste dos parâmetros é mais simples (fácil implementação), com simples configuração e custo efetivo, atingindo alta robustez e acurácia. Comparado as técnicas de demodulação baseado no espectro do sinal (J1..J4), o sistema proposto tem faixa dinâmica e resolução maiores, podendo medir atraso no tempo e operar com formas de onda arbitrárias. Além disso, aperfeiçoa os métodos de demodulação temporais aumentando a precisão para sinais de baixa amplitude, mantendo a condição de quadratura (ponto máximo de sensibilidade) e, portanto, elimina o efeito do desvanecimento do sinal, mesmo diante de grandes perturbações ao redor do sistema como, vibrações, variações de temperatura e correntes de ar. A estabilidade do sistema linearizado foi estudada atr... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: This work presents the theoretical and experimental study of a nonlinear control system designed for two beam optical interferometry based on variable structure and sliding modes. The proposed system presents high accuracy, robustness and, furthermore, is simple and low cost, increasing the measurement capability for different applications of interferometric sensors. Compared with other control techniques applied in optical interferometry, this control technique presents important features and takes in account the nonlinear characteristic of the interferometer, increasing its measurement capability. Consequently, a reset circuit is not necessary, the interferometer can work in harsh environments, the assembly and adjustment of the parameters is simpler (easy implementation), with simple setup and the effective cost, achieving high robustness and accuracy. Regarding demodulation techniques based on signal spectrum (J1..J4), the proposed system has a higher dynamic range, resolution, can measure time delay and operate with arbitrary signal waveforms. Also, it improves the temporal demodulation methods increasing the accuracy for small amplitude signals, maintaining the quadrature condition (maximum point of sensitivity) and, therefore, eliminates the effect of signal fading, even under strong external disturbances around the interferometer setup such as vibration, temperature variation and air current flow. The stability of the linearized system was studied through the Lyapunov... (Complete abstract click electronic access below) / Doutor

Interferometria óptica de dois feixes

Controle não linear

Estrutura variável e modos deslizantes

Two beam optical interferometry

Nonlinear control

Variable Structure and sliding modes

Analyse temps-frequence et traitement des signaux RSO à haute résolution spatiale pour la surveillance des grands ouvrages d'art / High-resolution time-frequency SAR signal processing for large infrastructure monitoring

Anghel, Andrei

08 October 2015

Cette thèse s'articule autour de deux axes de recherche. Le premier axe aborde les aspects méthodologiques liés au traitement temps-fréquence des signaux issus d'un radar FMCW (à onde continue modulée en fréquence) dans le contexte de la mesure des déplacements fins. Le second axe est dédié à la conception et à la validation d'une chaîne de traitement des images RSO (radar à synthèse d'ouverture) satellitaire. Lorsqu'un maillage 3D de la structure envisagée est disponible, les traitements proposés sont validés par l'intercomparaison avec les techniques conventionnelles d'auscultation des grands ouvrages d'art.D'une part, nous étudions la correction de la non-linéarité d'un radar FMCW en bande X, à courte portée, conçu pour la mesure des déplacements millimétriques. La caractéristique de commande non linéaire de l'oscillateur à large bande, entraine une perte de résolution à la réception. Afin de pallier cet inconvénient, nous avons développé deux méthodes basées sur le ré-échantillonnage temporel (time warping) dans le cas des signaux à large bande non-stationnaires. La première approche estime la loi de fréquence instantanée non linéaire à l'aide de la fonction d'ambiguïté d'ordre supérieur, tandis que la deuxième approche exploite la mesure de concentration spectrale du signal de battement dans un algorithme d'autofocus radial.D'autre part, nous proposons un cadre méthodologique général pour la détection et le pistage des centres de diffusion dans les images RSO pour la surveillance des grands ouvrages d'art. La méthode est basée sur la ré-focalisation de chaque image radar sur le maillage 3D de l'infrastructure étudiée afin d'identifier les diffuseurs pertinents par tomographie 4D (distance – azimut – élévation – vitesse de déformation). L'algorithme de ré-focalisation est parfaitement compatible avec les images RSO acquises dans les différents modes (« stripmap », « spotlight » et « sliding spotlight ») : dé-focalisation en azimut suivie par rétroprojection modifiée (conditionnée par la structure temps-fréquence du signal) sur l'ensemble donné des points. Dans la pile d'images ré-focalisées, les centres de diffusion sont détectés par tomographie 4D : test de conformité à l'hypothèse d'élévation zéro dans le plan élévation – vitesse de déformation. La vitesse moyenne correspond au maximum à l'élévation zéro, tandis que la série temporelle des déplacements est obtenue par double différence de phase des amplitudes complexes pour chaque diffuseur pertinent.Nous présentons également les campagnes in situ effectuées au barrage de Puylaurent (et glissement de Chastel) : les relevés GPS, topographiques et LIDAR sol employées au calcul des maillages 3D. La comparaison entre les déplacements mesurés in situ et les résultats obtenus par l'exploitation conjointe de la télédétection RSO satellitaires et les maillages 3D valident la chaîne de traitement proposée. / The thesis is composed of two research axis. The first one consists in proposing time-frequency signal processing tools for frequency modulated continuous wave (FMCW) radars used for displacements measurements, while the second one consists in designing a spaceborne synthetic aperture radar (SAR) signal processing methodology for infrastructure monitoring when an external point cloud of the envisaged structure is available. In the first part of the thesis, we propose our solutions to the nonlinearity problem of an X-band FMCW radar designed for millimetric displacement measurements of short-range targets. The nonlinear tuning curve of the voltage controlled oscillator from the transceiver can cause a dramatic resolution degradation for wideband sweeps. To mitigate this shortcoming, we have developed two time warping-based methods adapted to wideband nonlinearities: one estimates the nonlinear terms using the high order ambiguity function, while the other is an autofocus approach which exploits the spectral concentration of the beat signal. Onwards, as the core of the thesis, we propose a novel method for scattering centers detection and tracking in spaceborne SAR images adapted to infrastructure monitoring applications. The method is based on refocusing each SAR image on a provided 3D point cloud of the envisaged infrastructure and identifying the reliable scatterers to be monitored by means of four dimensional (4D) tomography. The refocusing algorithm is compatible with stripmap, spotlight and sliding spotlight SAR images and consists of an azimuth defocusing followed by a modified back-projection algorithm on the given set of points which exploits the time-frequency structure of the defocused azimuth signal. The scattering centers of the refocused image are detected in the 4D tomography framework by testing if the main response is at zero elevation in the local elevation-velocity spectral distribution. The mean displacement velocity is estimated from the peak response on the zero elevation axis, while the displacements time series for detected single scatterers is computed as double phase difference of complex amplitudes.Finally, we present the measurement campaigns carried out on the Puylaurent water-dam and the Chastel landslide using GPS measurements, topographic surveys and laser scans to generate the point clouds of the two structures. The comparison between in-situ data and the results obtained by combining TerraSAR-X data with the generated point clouds validate the developed SAR signal processing chain. / Teza cuprinde două axe principale de cercetare. Prima axă abordează aspecte metodologice de prelucraretimp-frecvenţă a semnalelor furnizate de radare cu emisie continuă şi modulaţie de frecvenţă (FMCW)în contextul măsurării deplasărilor milimetrice. În cadrul celei de-a doua axe, este proiectată şi validatăo metodă de prelucrare a imaginilor satelitare SAR (radar cu apertură sintetică) ce este destinatămonitorizării infrastructurii critice şi care se bazează pe existenţa unui model 3D al structurii respective.În prima parte a tezei, sunt investigate soluţii de corecţie a neliniarităţii unui radar FMCW în bandaX destinat măsurării deplasărilor milimetrice. Caracteristica de comandă neliniară a oscilatorului debandă largă determină o degradare a rezoluţiei în distanţă. Pentru a rezolva acest inconvenient, au fostelaborate două metode de corecţie a neliniarităţii, adaptate pentru semnale de bandă largă, ce se bazeazăpe conceptul de reeşantionare neuniformă sau deformare a axei temporare. Prima abordare estimeazăparametrii neliniarităţii utilizând funcţii de ambiguitate de ordin superior, iar cea de-a doua exploateazăo măsură de concentraţie spectrală a semnalului de bătăi într-un algoritm de autofocalizare în distanţă.În a doua parte a lucrării, este propusă o metodologie generală de detecţie şi monitorizare a centrilorde împrăştiere în imagini SAR în scopul monitorizării elementelor de infrastructură critică. Metoda sebazează pe refocalizarea fiecărei imagini radar pe un model 3D al structurii investigate în scopul identificăriicentrilor de împrăştiere pertinenţi (ţinte fiabile ce pot fi monitorizate în timp) cu ajutorul tomografiei SAR4D (distanţă-azimut-elevaţie-viteză de deplasare). Algoritmul de refocalizare este compatibil cu imaginiSAR achiziţionate în moduri diferite (« stripmap », « spotlight » şi « sliding spotlight ») şi constă într-odefocalizare în azimut urmată de o retroproiecţie modificată (condiţionată de structura timp-frecvenţă asemnalului) pe modelul 3D al structurii. Ţintele sunt identificate în stiva de imagini refocalizate cu ajutorultomografiei 4D prin efectuarea unui test de conformitate cu ipoteza că centrii de împrăştiere pertinenţivor avea elevaţie zero în planul local elevaţie-viteză. Viteza medie de deformare corespunde maximuluide pe axa de elevaţie nulă, iar seria temporară a deplasărilor se obţine printr-o dublă diferenţă de fază aamplitudinilor complexe corespunzătoare ţintelor identificate.În final sunt prezentate campaniile de măsurători pe teren efectuate la un baraj şi o alunecare de terendin regiunea Puylaurent (Franţa) destinate obţinerii modelului 3D al celor două elemente de infrastructurăprin măsurători GPS, topografice şi LIDAR. Comparaţia între deformările măsurate pe teren şi rezultateleobţinute prin combinarea imaginilor SAR cu modelele 3D au permis validarea metodologiei propuse.

Traitement du signal

Radar

Temps-fréquence

Tomographie RSO

Interférométrie

Signal processing

Radar

Time-frequency

SRA tomography

Interferometry

Prelucrarea semnalelor

Timp-frecvenţă

Radar

Interferometrie

Tomografie SAR

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