Global ETD Search

31	FÖREKOMSTEN AV FOTO-PAROXYSMAL REAKTION HOS PATIENTER VID UTREDNING MED EEG / PRESENCE OF PHOTOPAROXYSMAL RESPONSE IN PATIENTS DURING EEG EXAMINATION Kurdie, Sara January 2021 (has links) Vid elektroencefalografi (EEG) används intermittent ljusstimulering för att detektera eventuell fotoparoxysmal reaktion (PPR) hos patienter, som tecken på en fotosensitivitet och stöd för en misstanke om epilepsi. Intermittent ljusstimulering innebär att patienten exponeras för en stroboskoplampa som ger ljus med frekvenser mellan 1–60 Hz. PPR karaktäriseras av spikes, spike-waves eller polyspike-waves som uppkommer bilateralt och synkront, symmetriskt och generaliserat. Intermittent ljusstimulering är en provokation som utförs vid rutin-EEG som tolkas på Skånes universitetssjukhus mellan 6 månader och 70 års ålder. Studier har dock visat att PPR sällan provoceras fram i äldre åldersgrupper. För äldre åldersgrupper kan det istället vara till större förmån att använda andra former av provokationer. Syftet med studien var att kartlägga förekomsten av PPR i olika åldersgrupper. Åldersfördelningen studerades på patienter med PPR som undersökts med rutin-EEG vilka tolkades på Skånes universitetssjukhus under perioden 2017-2020. Av 4050 rutin-EEG hade 3821 utfört intermittent ljusstimulering. Av dessa hade 1,4 % PPR med ett medelvärde av åldern på 17 år och standardavvikelse på 10 år. PPR var vanligare hos yngre (p<0,001) och 91 % av patienterna med PPR var under 30 år. PPR var även vanligare hos kvinnor (p<0,001) och motsvarade 84 % av undersökningarna med PPR. Konklusionen av studien är att PPR är vanligare hos kvinnor och patienter under 30 år. / Electroencephalography (EEG) uses intermittent photic stimulation to detect possible photoparoxysmal response (PPR) in patients, as a sign of photosensitivity and as a contribution in the diagnosis of a suspected epilepsy. Intermittent photic stimulation means that the patient is exposed to flashing lights from a stroboscope lamp that provides light with frequencies between 1–60 Hz. PPR is characterized by spikes, spike-waves or polyspike-waves that occur bilaterally and synchronously, symmetrically and generalized. Intermittent photic stimulation is a provocation performed during routine-EEG that is interpreted at Skåne university hospital between 6 months and 70 years of age. However, studies have shown that PPR is rarely provoked in older age groups. For older age groups, it may instead be a greater advantage of using other forms of provocative methods. The purpose of this study was to map how common PPR is in different age groups. The age distribution was studied on patients with PPR who were examined with a routine EEG that was interpreted at Skåne university hospital during the period 2017-2020. Of the 4050 routine EEG, 3821 had performed intermittent photic stimulation. Of these 1.4 % had PPR with a mean age value of 17 years and a standard deviation of 10 years. PPR was more common in younger age groups (p<0.001) and 91% of the patients with PPR were younger than 30 years old. PPR was also more common in females (p <0.001), corresponding to 84 % of the examinations with PPR. The conclusion of the study is that PPR is more common in females and in patients younger than 30 years old. Electroencephalography epilepsy intermittent photic stimulation photoparoxysmal response photosensitivity Elektroencefalografi epilepsi fotoparoxysmal reaktion fotosensitivitet intermittent ljusstimulering Neurology Neurologi
32	Complexes de ruthénium (II) intégrant l'unité photochromique Diméthyldihydropyrène : Vers de nouvelles photo-réactivités / Ruthenium (II) complexes with dimethyldihydropyrene photochromic unit : Towards new photo-reactivities Jacquet, Margot 07 December 2017 (has links) Le travail présenté dans ce mémoire est dédié à l'élaboration de complexes de ruthénium(II) photo-commutables originaux incorporant le couple photochrome Diméthyldihydropyrène (DHP) / Cyclophanediène (CPD), pour de futurs dispositifs moléculaires optoélectroniques.Dans le but de réaliser des systèmes complexes pouvant reproduire les fonctions d'un circuit logique, une stratégie intéressante repose sur l'association de molécules photo-commutables et de complexes métalliques. Cependant, cette stratégie se confronte à certains obstacles majeurs, généralement associés à la perte des propriétés de commutation des photochromes organiques. En réponse aux précédents résultats confirmant cette tendance, deux nouvelles familles de complexes terpyridiniques de ruthénium(II) à base de DHP ont été synthétisées. Sachant que la présence de fonction pyridinium améliore significativement les propriétés d'isomérisation du cœur DHP, les centres métalliques ont été connectés soit via un lien benzyle pyridinium (Ru-Lpy+tpy) soit via un lien aryle pyridinium (Ru-LZincke). Bien que fonctionnant à plus faible énergie, le complexe Ru-LZincke présente des performances amoindries, en revanche les complexes Ru-Lpy+tpy affichent une préservation notable de leurs propriétés de commutation. Suite à la découverte d'une photo-réactivité originale favorisée par la présence du centre métallique, une famille analogue à base de complexes bipyridiniques de ruthénium(II) (Ru-Lpy+bpy) a été étudiée. Même si les mécanismes ne sont pas complètement rationalisés, les complexes Ru-Lpy+bpy se sont révélés être de remarquables candidats pour la réalisation de photo-commutateurs réversibles quantitativement dans le domaine du visible. / The work of this thesis is devoted to the development of original photo-switchable ruthenium(II) complexes incorporating the photochromic Dimethyldihydropyrene (DHP) / Cyclophanediene (CPD), for future optoelectronic molecular devices.In order to realize complex systems capable of reproducing the functions of a logic circuit, an interesting strategy is based on the association of photo-switchable molecules and metal complexes. However, this strategy is confronted with some major obstacles, generally associated with the loss of the switching properties of organic photochromes. In response to previous results confirming this trend, two new families of DHP-based terpyridine ruthenium(II) complexes have been synthesized. Since the presence of pyridinium function significantly improves the isomerization properties of the DHP core, the metal centers were connected either via a pyridinium benzyl linkage (Ru-Lpy+tpy) or via an aryl pyridinium linkage (Ru-LZincke). Although operating at lower energy, Ru-LZincke complex exhibits lessened performance, whereas Ru-Lpy+tpy complexes exhibit a notable preservation of their switching properties. Following the discovery of an original photo-reactivity favored by the presence of metal center, an analogue family based on ruthenium (II) bipyridine complexes (Ru-Lpy+bpy) was studied. Even if the mechanisms are not completely rationalized, Ru-Lpy+bpy complexes have proved to be remarkable candidates for the realization of quantitatively reversible photo-switches in the visible domain. Commutateur moléculaire Complexes de ruthénium(II) Luminescence Photochromisme Diméthyldihydropyrène Photosensibilisation Molecular switch Ruthenium(II) complexes Luminescence Photochromism Dimethyldihydropyrene Photosensitivity 540 580
33	Structuration non-linéaire de verres oxydes par laser femtoseconde dans le proche infrarouge / Nonlinear femtosecond near infrared laser structuring in oxide glasses Royon, Arnaud 17 June 2009 (has links) La structuration laser femtoseconde en trois dimensions rencontre un intérêt grandissant du fait de sa facilité de mise en œuvre et des nombreuses applications qu’elle peut couvrir dans le domaine des composants photoniques. Des structures telles que des guides d’onde, des réseaux de diffraction, des mémoires optiques ou des cristaux photoniques peuvent être fabriquées grâce à cette technique. Son emploi sur des verres oxydes est prometteur car ces derniers présentent des avantages certains ; ils sont très résistants au flux et au vieillissement, leur composition chimique peut être changée facilement afin de s’adapter à un cahier des charges précis. On les retrouve déjà dans les amplificateurs Raman, les fibres optiques, les lasers à fibres, etc… Le travail de cette thèse s’articule autour de deux grands axes. Le premier axe consiste à caractériser les propriétés optiques linéaires et non-linéaires de matériaux vitreux massifs afin d’optimiser leur composition en vue d’une application particulière. Dans ce contexte, les propriétés optiques non-linéaires, leurs origines physiques (électronique et nucléaire) ainsi que leurs temps de réponse caractéristiques (de quelques femtosecondes à quelques centaines de picosecondes) sont décrits dans le cadre de l’approximation de Born-Oppenheimer. Ainsi, la silice fondue et plusieurs verres sodo-borophosphates contenant différentes concentrations en oxyde de niobium ont été étudiés. Les résultats montrent que les propriétés optiques non-linéaires dans la silice fondue sont majoritairement d’origine électronique, alors que dans les verres sodo-borophosphates, la contribution d’origine nucléaire peut devenir prépondérante lorsque la concentration en oxyde de niobium dépasse 30%. Le second axe s’articule autour de la structuration des matériaux. Trois échantillons commerciaux de silice fondue présentant des conditions de fabrication différentes (donc des taux d’impuretés distincts) et irradiés avec un laser femtoseconde proche infrarouge ont été étudiés. Les défauts induits par laser ont été identifiés au moyen de plusieurs techniques de spectroscopie. Elles ont montré la formation de centres colorés ainsi qu’une densification au niveau de la zone irradiée. Leurs propriétés optiques linéaire (indice de réfraction) et non-linéaire (susceptibilité du troisième ordre) ont été mesurées. De plus, la structuration de la silice fondue à l’échelle sub-micrométrique sous forme de « nano-réseaux » est observée et la biréfringence de forme induite par ces structures est discutée. En plus des échantillons de silice fondue, plusieurs verres oxydes présentant des compositions chimiques très distinctes ont été étudiés. Un verre sodo-borophosphate contenant de l’oxyde de niobium exhibe des micro-craquelures et des nano-crystallites après irradiation. Un verre silicate contenant ou non de l’argent dévoile des structures en anneau fluorescentes ou en « nano-réseaux ». Un verre zinc phosphate contenant de l’argent présente lui aussi des structures en anneau fluorescentes, d’une taille de l’ordre de 80 nm, bien inférieure à la limite de diffraction. Des techniques pompe-sonde sous microscope ont été mises en œuvre sur ce dernier verre pour étudier l’interaction laser-verre. Le mécanisme d’absorption de l’énergie lumineuse pour ce verre est l’absorption à quatre photons. La densité d’électrons libres générée est de l’ordre de 1017 cm-3, ce qui permet de conclure qu’un gaz d’électrons plutôt qu’un plasma se forme pendant l’irradiation laser. / Three-dimensional femtosecond laser structuring has a growing interest because of its ease of implementation and the numerous possible applications in the domain of photonic components. Structures such as waveguides, diffraction gratings, optical memories or photonic crystals can be fabricated thanks to this technique. Its use with oxide glasses is promising because of several advantages; they are resistant to flux and ageing, their chemical composition can easily be changed to fit the well-defined requirements of an application. They can already be found in Raman amplifiers, optical fibers, fiber lasers, and other devices. This thesis is based on two axes. The first axis consists in characterizing the linear and nonlinear optical properties of bulk vitreous materials in order to optimize their composition with a particular application in view. Within this context, the nonlinear optical properties, their physical origins (electronic and nuclear) as well as their characteristic response times (from a few femtoseconds to a few hundreds of picoseconds) are described within the Born-Oppenheimer approximation. Fused silica and several sodium-borophosphate glasses containing different concentrations in niobium oxide have been studied. Results show that the nonlinear optical properties of fused silica are mainly from electronic origin, whereas in the sodium-borophosphate glasses, the contribution from nuclear origin becomes predominant when the concentration of niobium oxide exceeds 30%. The second axis is based on the structuring of materials. Three commercially available fused silica samples presenting different fabrication conditions (therefore distinct impurity levels) and irradiated with a near infrared femtosecond laser have been studied. The laser induced defects have been identified by means of several spectroscopic techniques. They show the formation of color centers as well as a densification inside the irradiated area. Their linear refractive index and nonlinear third-order susceptibility properties have been measured. Moreover, the structuring of fused silica at the subwavelength scale into “nanogratings” is observed and the form of birefringence induced by these structures is discussed. In addition to the fused silica samples, several oxide glasses presenting very distinct chemical compositions have been studied. A sodium-borophosphate glass containing niobium oxide exhibits micro-cracks and nano-crystallites following irradiation. A silicate glass with or without a silver component reveals fluorescent rings or “nanograting” structures. A zinc phosphate glass containing silver also presents fluorescent ring structures, with a size of the order of 80 nm, well below the diffraction limit. Pump-probe microscope techniques have been performed on this glass to investigate the laser-glass interaction. The absorption mechanism is determined to be four-photon absorption. The generated free electron density is ~ 1017 cm-3, which suggests the conclusion that an electron gas rather than a plasma is formed during the laser irradiation. Structuration Laser femtoseconde Optique non-linéaire Verres oxydes Silice fondue Photosensibilité Expérience pompe-sonde Structuring Femtosecond laser Nonlinear optics Oxide glasses Fused silica Photosensitivity Pump probe experiment
34	Estudo dos efeitos da terapia fotodinâmica em periodontite induzida em ratos / Study of the effects of photodynamic therapy on induced-periodontitis in rats Yamada Junior, Aecio Massayoshi 16 October 2007 (has links) O objetivo deste trabalho foi observar a ação da terapia fotodinâmica (PDT) antimicrobiana do azul de metileno (AM) frente ao Aggregatibacter actinomycetemcomitans em estudo in vitro e em periodontite induzida em ratos. No estudo in vitro foram utilizadas suspensões de cultura de A. Actinomycetemcomitans selvagens na avaliação de diferentes parâmetros de irradiação na busca de otimizar a redução bacteriana. No estudo in vivo foram selecionados 20 ratos Wistar machos, adultos, com massa corpórea semelhante de aproximadamente 300 g. Os animais foram submetidos a uma antibioticoterapia durante cinco dias. A indução foi elaborada através da colocação de ligaduras embebidas em A. actinomycetemcomitans por um período de 15 dias. Após este período, observou-se clinicamente e por sondagem a presença da doença sendo os animais divididos em dois grupos: Grupo RM (n=10) - remoção mecânica de placa e Grupo RM + PDT (n=10) - remoção mecânica de placa + terapia fotodinâmica. Para a PDT, o azul de metileno a 0,01% foi aplicado topicamente diretamente nas bolsas periodontais que foram então irradiadas com um laser de emissão vermelha, A = 660nm, P= 100 mW, t= 54s e E= 5,4 J. Foram realizadas coletas microbiológicas antes, imediatamente após tratamento, 3 dias e sete dias para análises por cultura e reação de polimerase em cadeia (PCR). Os resultados microbiológicos obtidos no experimento in vitro apresentaram uma eficácia da terapia fotodinamica frente ao A. actinomycetemcomitans, 98,4% quando irradiado com uma energia de 5,4J e 99,9% com energia de 9J. No estudo in vivo, foi obtida uma redução microbiana de 93,5% no grupo RM+PDT, frente a uma redução de 87,7% no grupo RM. No controle do dia 7 foi observado uma recolonização em ambos os grupos. As análises por PCR confirmaram a presença do microorganismo em todas as coletas. Estes estudos sugerem que a terapia fotodinâmica pode ser uma alternativa promissora para sua utilização coadjuvante em periodontia. / The aim of this study was to evaluate the antimicrobial effects of photodynamic action of methylene blue (MB) against the Aggregatibacter actinomycetemcomitans in vitro and on periodontitis-induced in rats. The in vitro study used suspensions of A. actinomycetemcomitans to evaluate the different irradiation parameters to optimize the bacterial reduction. Twenty four male adult rats, body mass of 300 g were selected for in vivo study. The animals were submitted to an antibiotic therapy during five days. The periodontitis induction was performed by the ligature insertion imbibed in A. actinomycetemcomitans for 15 days. After this period, the disease was confirmed by clinical and probing aspects. The animals were divided into two groups: Group MR (n=10) - mechanical plaque removal and Group MR+PDT (n=10) - mechanical plaque removal + photodynamic therapy. The MB solution 0.01% (m/w) was topically applied into the periodontal pockets which were irradiated by a laser in red emission, A = 660nm, P= 100mW, t= 54s e E= 5.4 J. Microbiological samples were collected before, immediately after treatment, 3 and 7 days to cultural and Polymerase Chain Reaction (PCR) analysis. The results of in vitro study showed an antimicrobial efficacy of PDT against A. actinomycetemcomitans: reduction of 98.4% when the samples were irradiated with 5.4J and 99.9%, with 9J. The in vivo results showed reduction of 93.5% for Group MR+PDT and 87.7% for Group MR. The analysis on day 7 showed a recolonization in both groups. The PCR analysis confirmed the presence of the microorganism in all samples. This study suggests that the photodymnamic therapy could be a promising adjunctive therapy to periodontal treatment. antimicrobial agents azul de metileno bacteria dentistry in vitro in vivo laser radiation lasers methylene blue oral cavity periodontite agressiva photodynamic therapy photosensitivity rats terapia fotodinâmica
35	Estudo dos efeitos da terapia fotodinâmica em periodontite induzida em ratos / Study of the effects of photodynamic therapy on induced-periodontitis in rats Aecio Massayoshi Yamada Junior 16 October 2007 (has links) O objetivo deste trabalho foi observar a ação da terapia fotodinâmica (PDT) antimicrobiana do azul de metileno (AM) frente ao Aggregatibacter actinomycetemcomitans em estudo in vitro e em periodontite induzida em ratos. No estudo in vitro foram utilizadas suspensões de cultura de A. Actinomycetemcomitans selvagens na avaliação de diferentes parâmetros de irradiação na busca de otimizar a redução bacteriana. No estudo in vivo foram selecionados 20 ratos Wistar machos, adultos, com massa corpórea semelhante de aproximadamente 300 g. Os animais foram submetidos a uma antibioticoterapia durante cinco dias. A indução foi elaborada através da colocação de ligaduras embebidas em A. actinomycetemcomitans por um período de 15 dias. Após este período, observou-se clinicamente e por sondagem a presença da doença sendo os animais divididos em dois grupos: Grupo RM (n=10) - remoção mecânica de placa e Grupo RM + PDT (n=10) - remoção mecânica de placa + terapia fotodinâmica. Para a PDT, o azul de metileno a 0,01% foi aplicado topicamente diretamente nas bolsas periodontais que foram então irradiadas com um laser de emissão vermelha, A = 660nm, P= 100 mW, t= 54s e E= 5,4 J. Foram realizadas coletas microbiológicas antes, imediatamente após tratamento, 3 dias e sete dias para análises por cultura e reação de polimerase em cadeia (PCR). Os resultados microbiológicos obtidos no experimento in vitro apresentaram uma eficácia da terapia fotodinamica frente ao A. actinomycetemcomitans, 98,4% quando irradiado com uma energia de 5,4J e 99,9% com energia de 9J. No estudo in vivo, foi obtida uma redução microbiana de 93,5% no grupo RM+PDT, frente a uma redução de 87,7% no grupo RM. No controle do dia 7 foi observado uma recolonização em ambos os grupos. As análises por PCR confirmaram a presença do microorganismo em todas as coletas. Estes estudos sugerem que a terapia fotodinâmica pode ser uma alternativa promissora para sua utilização coadjuvante em periodontia. / The aim of this study was to evaluate the antimicrobial effects of photodynamic action of methylene blue (MB) against the Aggregatibacter actinomycetemcomitans in vitro and on periodontitis-induced in rats. The in vitro study used suspensions of A. actinomycetemcomitans to evaluate the different irradiation parameters to optimize the bacterial reduction. Twenty four male adult rats, body mass of 300 g were selected for in vivo study. The animals were submitted to an antibiotic therapy during five days. The periodontitis induction was performed by the ligature insertion imbibed in A. actinomycetemcomitans for 15 days. After this period, the disease was confirmed by clinical and probing aspects. The animals were divided into two groups: Group MR (n=10) - mechanical plaque removal and Group MR+PDT (n=10) - mechanical plaque removal + photodynamic therapy. The MB solution 0.01% (m/w) was topically applied into the periodontal pockets which were irradiated by a laser in red emission, A = 660nm, P= 100mW, t= 54s e E= 5.4 J. Microbiological samples were collected before, immediately after treatment, 3 and 7 days to cultural and Polymerase Chain Reaction (PCR) analysis. The results of in vitro study showed an antimicrobial efficacy of PDT against A. actinomycetemcomitans: reduction of 98.4% when the samples were irradiated with 5.4J and 99.9%, with 9J. The in vivo results showed reduction of 93.5% for Group MR+PDT and 87.7% for Group MR. The analysis on day 7 showed a recolonization in both groups. The PCR analysis confirmed the presence of the microorganism in all samples. This study suggests that the photodymnamic therapy could be a promising adjunctive therapy to periodontal treatment. azul de metileno periodontite agressiva terapia fotodinâmica antimicrobial agents bacteria dentistry in vitro in vivo laser radiation lasers methylene blue oral cavity photodynamic therapy photosensitivity rats
36	Criblage génétique et caractérisation fonctionnelle des mutations dans le gène CHD2 associé à l’épilepsie dans un modèle de poisson zèbre Cloutier, Véronique 04 1900 (has links) No description available. épilepsie encéphalopathie épileptique photosensibilité CHD2 poisson zèbre criblage génétique Morpholino CRISPR-Cas9 epilepsy epileptic encephalopathy photosensitivity zebrafish genetic screening
37	Technology for photonic components in silica/silicon material structure Wosinski, Lech January 2003 (has links) The main objectives of this thesis were to develop a lowtemperature PECVD process suitable for optoelectronicintegration, and to optimize silica glass composition forUV-induced modifications of a refractive index in PECVDfabricated planar devices. The most important achievement isthe successful development of a low temperature silicadeposition, which for the first time makes it is possible tofabricate good quality low loss integrated components whilekeeping the temperature below 250oC during the entirefabrication process. Two strong absorption peaks thatappear at1.5 mm communication window due to N-H and Si-H bonds have beencompletely eliminated by process optimization. This openspossibilities for monolithic integration with other,temperature sensitive devices, such as semiconductor lasers anddetectors, or polymer-based structures on the common siliconplatform. PECVD technology for low loss amorphous silicon inapplication to SiO2/Si based photonic crystal structures hasbeen also optimized to remove hydrogen incorporated during thedeposition process, responsible for the porosity of thedeposited material and creation of similar to silica absorptionbands. Change of the refractive index of germanium doped silicaunder UV irradiation is commonly used for fabrication of UVinduced fiber Bragg gratings. Here we describe our achievementsin fabrication of fiber Bragg gratings and their application todistributed sensor systems. Recently we have built up a laserlab for UV treatment in application to planar technology. Wehave demonstrated the high photosensitivity of PECVD depositedGe-doped glasses (not thermally annealed) even without hydrogenloading, leading to a record transmission suppression of 47dBin a Bragg grating photoinduced in a straight buried channelwaveguide. We have also used a UV induced refractive indexchange to introduce other device modifications or functions,such as phase shift, wavelength trimming and control ofpolarization birefringence.The developed low temperature technology and the UVprocessing form a unique technology platform for development ofnovel integrated functional devices for optical communicationsystems. A substantial part of the thesis has been devoted tostudying different plasma deposition parameters and theirinfluence on the optical characteristics of fabricatedwaveguides to find the processing window giving the besttrade-off between the deposition rate,chamber temperatureduring the process, optical losses and presence of absorptionbands within the interesting wavelength range. The optimalconditions identified in this study are low pressure (300-400mTorr), high dilution of silane in nitrous oxide and high totalflow (2000 sccm), low frequency (380 KHz) RF source and high RFpower levels (800-1000 W). The thesis provides better understanding of the plasmareactions during the deposition process. RF Power is the keyparameter for increasing the rate of surface processes so as toaccommodate each atomic layer in the lowest energy statepossible. All the process conditions which favor a moreenergetic ion bombardment (i.e. low pressure, low frequency andhigh power) improve the quality of the material, making it moredense and similar to thermal oxide, but after a certain pointthe positive trend with increasing power saturates. As theenergy of the incoming ion increases, a competing effect setsin at the surface: ion induced damage and resputtering. Finally, the developed technologies were applied for thefabrication of some test and new concept devices for opticalcommunication systems including multimode interference (MMI)-based couplers/splitters, state-of-the-art arrayed waveguidegrating-based multi/ demultiplexers, the first Bragg gratingassisted MMI-based add-drop multiplexer, as well as moreresearch oriented devices such as a Mach-Zehnder switch basedon silica poling and a Photonic Crystal-based coupler. <b>Keywords:</b>silica-on-silicon technology, PECVD, plasmadeposition, photonic integrated circuits, planar waveguidedevices, UV Bragg gratings, photosensitivity, arrayed waveguidegratings, multimode interference couplers, add-dropmultiplexers. silica-on-silicon technology PECVD plasma deposition photonic integrated circuits planar waveguide devices UV Bragg gratings photosensitivity arrayed waveguide gratings multimode interference couplers add-drop multiplexers
38	Technology for photonic components in silica/silicon material structure Wosinski, Lech January 2003 (has links) <p>The main objectives of this thesis were to develop a lowtemperature PECVD process suitable for optoelectronicintegration, and to optimize silica glass composition forUV-induced modifications of a refractive index in PECVDfabricated planar devices. The most important achievement isthe successful development of a low temperature silicadeposition, which for the first time makes it is possible tofabricate good quality low loss integrated components whilekeeping the temperature below 250oC during the entirefabrication process. Two strong absorption peaks thatappear at1.5 mm communication window due to N-H and Si-H bonds have beencompletely eliminated by process optimization. This openspossibilities for monolithic integration with other,temperature sensitive devices, such as semiconductor lasers anddetectors, or polymer-based structures on the common siliconplatform. PECVD technology for low loss amorphous silicon inapplication to SiO2/Si based photonic crystal structures hasbeen also optimized to remove hydrogen incorporated during thedeposition process, responsible for the porosity of thedeposited material and creation of similar to silica absorptionbands.</p><p>Change of the refractive index of germanium doped silicaunder UV irradiation is commonly used for fabrication of UVinduced fiber Bragg gratings. Here we describe our achievementsin fabrication of fiber Bragg gratings and their application todistributed sensor systems. Recently we have built up a laserlab for UV treatment in application to planar technology. Wehave demonstrated the high photosensitivity of PECVD depositedGe-doped glasses (not thermally annealed) even without hydrogenloading, leading to a record transmission suppression of 47dBin a Bragg grating photoinduced in a straight buried channelwaveguide. We have also used a UV induced refractive indexchange to introduce other device modifications or functions,such as phase shift, wavelength trimming and control ofpolarization birefringence.The developed low temperature technology and the UVprocessing form a unique technology platform for development ofnovel integrated functional devices for optical communicationsystems.</p><p>A substantial part of the thesis has been devoted tostudying different plasma deposition parameters and theirinfluence on the optical characteristics of fabricatedwaveguides to find the processing window giving the besttrade-off between the deposition rate,chamber temperatureduring the process, optical losses and presence of absorptionbands within the interesting wavelength range. The optimalconditions identified in this study are low pressure (300-400mTorr), high dilution of silane in nitrous oxide and high totalflow (2000 sccm), low frequency (380 KHz) RF source and high RFpower levels (800-1000 W).</p><p>The thesis provides better understanding of the plasmareactions during the deposition process. RF Power is the keyparameter for increasing the rate of surface processes so as toaccommodate each atomic layer in the lowest energy statepossible. All the process conditions which favor a moreenergetic ion bombardment (i.e. low pressure, low frequency andhigh power) improve the quality of the material, making it moredense and similar to thermal oxide, but after a certain pointthe positive trend with increasing power saturates. As theenergy of the incoming ion increases, a competing effect setsin at the surface: ion induced damage and resputtering.</p><p>Finally, the developed technologies were applied for thefabrication of some test and new concept devices for opticalcommunication systems including multimode interference (MMI)-based couplers/splitters, state-of-the-art arrayed waveguidegrating-based multi/ demultiplexers, the first Bragg gratingassisted MMI-based add-drop multiplexer, as well as moreresearch oriented devices such as a Mach-Zehnder switch basedon silica poling and a Photonic Crystal-based coupler.</p><p><b>Keywords:</b>silica-on-silicon technology, PECVD, plasmadeposition, photonic integrated circuits, planar waveguidedevices, UV Bragg gratings, photosensitivity, arrayed waveguidegratings, multimode interference couplers, add-dropmultiplexers.</p> silica-on-silicon technology PECVD plasma deposition photonic integrated circuits planar waveguide devices UV Bragg gratings photosensitivity arrayed waveguide gratings multimode interference couplers add-drop multiplexers
39	The light at the end of the tunnel: photosensitivity in developing mountain pine beetle (Dendroctonus ponderosae) Wertman, Debra 11 December 2017 (has links) This research explores the capacity for functional photoreception in larvae of the mountain pine beetle (Dendroctonus ponderosae), an extremely important forest pest insect that is well adapted for development beneath the bark of pine trees. Phototaxis tests, gene expression analysis and development experiments were integrated to assess mountain pine beetle larvae for light sensitivity. When presented with a phototaxis choice test, larvae preferred dark over light microhabitats, revealing that larvae sense and respond behaviourally to light. Long wavelength opsin transcription was identified in all life stages, including eggs and larvae, suggesting that D. ponderosae possesses extraretinal photosensitive capabilities across its life cycle. The long wavelength opsin could function in phototaxis or the development phenology of immature beetles, while the ultraviolet opsin, only found to be expressed in pupae and adults, is likely to function in dispersal via the compound eyes. Results from two development experiments reveal an effect of photoperiod treatment on beetle development rate when reared from the egg stage, but not when reared from mature larvae, indicating that a critical photosensitive life stage(s) must occur in D. ponderosae prior to the third larval instar. An effect of photoperiod on adult emergence rates, however, appears to be independent of larval rearing conditions. The discovery of opsin expression and negative phototaxis in eyeless mountain pine beetle larvae, in addition to an effect of photoperiod on immature development and adult emergence rates, suggest that light and photoperiodism likely function in survival and life cycle coordination in this species. / Graduate / 2018-10-17 mountain pine beetle photosensitivity extraretinal photoreception phototaxis photoperiodism circadian regulation low-light habitat development rate emergence rate beetle opsins eyeless larvae critical photosensitive life stage
40	Couches minces photosensibles pour la réalisation d'éléments optiques diffractifs et de filtres optiques interférentiels spatialement structurés / Photosensitive thin films for the fabrication of diffractive optical element and microstructured optical interference filter Joerg, Alexandre 26 October 2015 (has links) Le domaine des couches minces optiques a vu les fonctions de filtrage se complexifier et les techniques de dépôt se perfectionner. Cependant, certains filtres requièrent des performances ultimes notamment en termes d’uniformité et de centrage de leur réponse spectrale. Atteindre ces spécificités requiert un contrôle précis de l'épaisseur optique des couches de l’empilement. Pour se faire, l’utilisation d’un matériau dont l’indice de réfraction peut être modifié localement après dépôt est une solution. Le candidat retenu est un verre de chalcogénures : l’AMTIR-1, un verre commercial, dont l’indice de réfraction décroit sous l’action d’un champ électrique lumineux. Des couches minces de ce matériau ont été déposées par évaporation par canon à électrons et leurs propriétés optiques ont été caractérisées par mesures spectrophotométriques. Des variations d’indice photo-induites de ~4.10-2 ont été enregistrées à λ = 1 μm. Ces variations d’indice ont ensuite été exploitées pour concevoir des composants à base de couches minces optiques spatialement structurés. En particulier, des composants optiques diffractifs binaires ont été enregistrés dans le volume d’une monocouche épaisse de chalcogénure par exposition structurée. Un accord quasi parfait entre théorie et expérience a ainsi été obtenu. L’insertion de ces couches photosensibles à base de chalcogénures dans des filtres optiques interférentiels multicouches a également été investiguée. Une démonstration du contrôle local de la réponse spectrale d’un filtre passe-bande de type Fabry-Perot a été réalisée, démontrant ainsi le potentiel de cette nouvelle approche pour la réalisation de composants optiques optimisés. / In recent years, there has been a tremendous progress in the complexity of thin film optical filters but also an important improvement in the deposition techniques. However, some filters require ultimate performances especially in terms of uniformity and absolute position of their spectral responses. Achieving these characteristics requires a precise and local control of the optical thickness of each of the layers. To overcome some of these fabrication constraints, the use of a material which index of refraction or thickness can be locally changed after deposition is an attractive solution. The chosen material is a chalcogenide glass : AMTIR-1, a commercial glass which refractive index decreases when exposed to light source. Thin films of this material were deposited by electron beam deposition and optical properties were characterized by spectrophotometric measurements. Photo-induced refractive index changes of ~ 4.10-2 were recorded at λ = 1 μm. These refractive index variations were then used to fabricate spatially structured thin films. In particular, diffractive optical elements were recorded in the volume of a thick chalcogenide single layer. This is performed by structured exposure using an optical arrangement based on a digital micromirror device. A close to perfect agreement between theory and experiment has been obtained. The insertion of these chalcogenide-based photosensitive layers in multilayer optical interference filters has also been investigated. A demonstration of the local control of the spectral response of a Fabry-Perot bandpass filter was performed, demonstrating the potential of this new approach for the production of optimized optical components Verres de chalcogénures Filtres optiques interférentiels Couches minces optiques Éléments optiques diffractifs Photosensibilité. Chalcogenide glasses Optical filter Thin film Diffractive optical element Photosensitivity

Search results