Xeroderma Pigmentosum Type A Deficiency Results in Increased Generation of Microvesicle Particles in Response to Ultraviolet B Radiation and Solar Simulated Light via Platelet-activating Factor Receptor Signaling Pathway

Manjrekar, Pranali Sushil

16 May 2023

No description available.

Pharmacology

Toxicology

Xeroderma Pigmentosum

Ultraviolet B Radiation

UVB

microvesicle particles

Solar Simulated Light

Platelet-activating Factor

acid sphingomyelinase

XPA deficiency

photosensitivity

MECHANISTIC STUDIES ON THE PHOTOTOXICITY OF ROSUVASTATIN, ITRACONAZOLE AND IMATINIB

Nardi, Giacomo

31 March 2015

Photosensitizing effects of xenobiotics are of increasing concern in public health since modern lifestyle often associates sunlight exposure with the presence of chemical substances in the skin. An important number of chemicals like perfumes, sunscreen components, or therapeutic agents have been reported as photosensitizers. In this context, a considerable effort has been made to design a model system for photosafety assessment. Indeed, screening for phototoxicity is necessary at the early phase of drug discovery process, even before introducing drugs and chemicals into clinical therapy, to prevent undesired photoreactions in humans. In the case of new pharmaceuticals, their phototoxic potential has to be tested when they absorb in the regions corresponding to the solar spectrum, that is, for wavelengths >290 nm. So, there is an obvious need for a screening strategy based on in vitro experiments. The goal of the present thesis was the photochemical study of different photoactive drugs to investigate the key molecular aspects responsible for their photosensitivity side effects. In a first stage, rosuvastatin was considered in chapter 3 as representative compound of the statin family. This lipid-lowering drug, also known as “superstatin”, contains a 2-vinylbiphenyl-like moiety and has been previously described to decompose under solar irradiation, yielding stable dihydrophenanthrene analogues. During photophysical characterization of rosuvastatin, only a long-lived transient at ca. 550 nm was observed and assigned to the primary photocyclization intermediate. Thus, the absence of detectable triplet-triplet absorption and the low yield of fluorescence ruled out the role of the parent drug as an efficient sensitizer. In this context, the attention was placed on the rosuvastatin main photoproduct (ppRSV). Indeed, the photobehavior of this dihydrophenanthrene-like compound presented the essential components needed for an efficient biomolecule photosensitizer i.e. (i) a high intersystem crossing quantum yield (ΦISC =0.8), (ii) a triplet excited state energy of ca. 67 kcal mol−1 , and (iii) a quantum yield of singlet oxygen formation (Φ∆) of 0.3. Furthermore, laser flash photolysis studies revealed a triplet-triplet energy transfer from the triplet excited state of ppRSV to thymidine, leading to the formation of cyclobutane thymidine dimers, an important type of DNA lesion. Finally, tryptophan was used as a probe to investigate the Type I and/or Type II character of ppRSV-mediated oxidation. In this way, both an electron transfer process giving rise to the tryptophanyl radical and a singlet oxygen mediated oxidation were observed. On the basis of the obtained results, rosuvastatin, through its major photoproduct ppRSV, should be considered as a potential sensitizer. Then, itraconazole (ITZ), a broad-spectrum antifungal agent, was chosen as main character of chapter 4. Its photochemical properties were investigated in connection with its reported skin photosensitivity disorders. Steady state photolysis, fluorescence and phosphorescence experiments were performed to understand ITZ photoreactivity in biological media. The drug is unstable under UVB irradiation, suffering a primary dehalogenation of the 2,4-dichlorophenyl moiety that occurs mainly at the ortho-position. In poorly H-donating solvents, as acetonitrile, the major photoproduct arises from intramolecular attack of the initially generated aryl radical to the triazole ring. In addition, reduced compounds resulting from homolytic cleavage of the C-Cl bond in ortho or para positions and subsequent Habstraction from the medium are obtained to a lesser extent. In good H-donating solvents, such as ethanol, the main photoproducts are formed by reductive dehalogenation. Furthermore, irradiation of a model dyad containing a tryptophan unit and the reactive 2,4-dichlorophenyl moiety of itraconazole leads to formation of a new covalent link between these two substructures revealing that homolysis of the C-Cl bond of ITZ can result in alkylation of reactive amino acid residues of proteins, leading to formation of covalent photoadducts. Therefore, it has been established that the key process in the photosensitization by itraconazole is cleavage of the carbon-halogen bond, which leads to aryl radicals and chlorine atoms. These highly reactive species might be responsible for extensive free radical-mediated biological damage, including lipid peroxidation or photobinding to proteins. In chapter 5, photobehavior of imatinib (IMT) was addressed. This is a promising tyrosine kinase inhibitor used in the treatment of some types of human cancer, which constitutes a successful example of rational drug design based on the optimization of the chemical structure to reach an improved pharmacological activity. Cutaneous reactions, such as increased photosensitivity or pseudoporphyria, are among the most common nonhematological IMT side effects; however, the molecular bases of these clinical observations have not been unveiled yet. Thus, to gain insight into the IMT photosensitizing properties, its photobehavior was studied together with that of its potentially photoactive anilino-pyrimidine and pyridyl-pyrimidine fragments. In this context, steady-state and time resolved fluorescence, as well as laser flash photolysis experiments were run, and the DNA photosensitization potential was investigated by means of single strand breaks detection using agarose gel electrophoresis. The obtained results revealed that the drug itself and its anilino-pyrimidine fragment are not DNA-photosensitizers. By contrast, the pyridyl-pyrimidine substructure displayed a marked photogenotoxic potential, which was associated with the generation of a long-lived triplet excited state. Interestingly, this reactive species was efficiently quenched by benzanilide, another molecular fragment of IMT. Clearly, integration of the photoactive pyridyl-pyrimidine moiety in a more complex structure strongly modifies its photobehavior, which in this case is fortunate as it leads to an improved toxicological profile. Thus, on the bases of the experimental results, direct in vivo photosensitization by IMT seems unlikely. Instead, the reported photosensitivity disorders could be related to indirect processes, such as the previously suggested impairment of melanogenesis or the accumulation of endogenous porphyrins. Finally, a possible source of errors in the TEMPO/EPR method for singlet oxygen detection was analyzed. For many biological and biomedical studies, it is essential to detect the production of 1O2 and to quantify its production yield. Among the available methods, detection of the characteristic 1270 nm phosphorescence of singlet oxygen by time-resolved near infrared (TRNIR) emission constitutes the most direct and unambiguous approach. An alternative indirect method is electron paramagnetic resonance (EPR) in combination with trapping. This is based on the detection of the TEMPO free radical formed after oxidation of TEMP (2,2,6,6- tetramethylpiperidine) by singlet oxygen. Although the TEMPO/EPR method has been largely employed, it can produce misleading data. This was demonstrated by the present study, where the quantum yields of singlet oxygen formation obtained by TRNIR emission and by the TEMPO/EPR method were compared for a set of well-known photosensitizers. The results revealed that the TEMPO/EPR method leads to significant overestimation of singlet oxygen yield when the singlet or triplet excited state of the photosensitizers were efficiently quenched by TEMP, acting as electron donor. In such case, generation of the TEMP+• radical cation, followed by deprotonation and reaction with molecular oxygen gives rise to a EPR detectable TEMPO signal that is not associated with singlet oxygen production. This knowledge is essential for an appropriate and error-free application of the TEMPO/EPR method in chemical, biological and medical studies. / Nardi, G. (2014). MECHANISTIC STUDIES ON THE PHOTOTOXICITY OF ROSUVASTATIN, ITRACONAZOLE AND IMATINIB [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/48535 / TESIS

Photosensitizing effects

Photosensitizers

Photosafety assessment

Phototoxicity

Photoactive drugs

Photosensitivity

Rosuvastatin

Triplet-triplet energy transfer

Triplet excited state

Photoproduct

Fluorescence

Thymidine

Cyclobutane thymidine dimers

Tryptophan itraconazole

Phosphorescence

Photosensitivity disorders

Dehalogenation

Model dyad

Radicals

Matinib

Cutaneous reactions

Electrophoresis

Laser flash photolysis

QUIMICA ORGANICA

Germanosilicate Fibers And Bragg Gratings : Newer Efforts In Understanding Photosensitivity And Novel Methods For Strain-Temperature Discrimination

Rahman, Aashia

07 1900

The different topics covered in this thesis include photosensitivity in germanosilicate fibers/glasses and application of fiber Bragg grating sensors in simultaneous strain and temperature discrimination. Fiber Bragg Gratings are wavelength dispersive refractive index structures manufactured through ultra-violet (UV) exposure of optical fibers. Their applications range from wavelength division multiplexing filters, dispersion compensators and fiber laser resonators for telecommunication applications to different types of point or distributive sensors for a variety of applications. One aim of this thesis has been to understand the mechanism of photosensitivity in germanosilicate fibers/preforms. Studies undertaken in this part of the thesis include thermal dynamics of Fiber Bragg Gratings and nano-indentation on ultra-violet irradiated germanosilicate glass preforms. An interesting, periodic appearance of a new peak has been observed in the reflected spectrum of Bragg grating inscribed in a germanosilicate fiber during thermal treatment. The new peak occurs on the longer wavelength side of the spectrum during heating and on the shorter wavelength side during cooling, following an identical reverse dynamics. A commercial grating with 99.9% reflectivity also shows a similar decay dynamics. The observed temperature induced distortion in refractive index modulation profile has been understood in the light of compaction-densification model. It is proposed that during the fabrication process of a grating, the modulation in the thermal expansion coefficient brought about by the interference fringes results in a non-uniform expansion throughout the grating length which in turn results in the distortion of the refractive index profile with increase/decrease in temperature. Since the reflection spectrum of a grating can be approximated as the Fourier transform of the refractive index profile, any distortion in the index profile results in the observed anomalous behaviour in the reflection spectrum. Nano-indentation studies have been performed to measure the changes in mechanical properties of a glass preform subjected to different levels of ultra-violet exposure. The results reveal that short term exposure leads to an appreciable increase in the Young’s modulus suggesting the densification of the glass, confirming the compaction-densification model. However, on prolonged exposure, the Young’s modulus decreases, which provides the first direct evidence of dilation in the glass leading into the Type IIA regime. The present results rule out the hypothesis that continued exposure leads to an irreversible compaction and prove that index modulation regimes are intrinsic to the glass matrix. In the second part of the thesis, three different schemes have been proposed for the use of Fiber Bragg Gratings as strain-temperature discriminating sensors: (a) The first method is based on the measurement of the different characteristic wavelength shifts of two types of gratings. Strain and temperature sensitivities of a Type I Bragg grating (G1) in germania doped silica fiber, fabricated under normal conditions, and zero strain, are compared with that of a Bragg grating inscribed under pre-strained condition (G2). Experimental results show that both, strain and temperature sensitivities of G1 and that of G2 are different. Based on this study, we have proposed an approach which enables simultaneous discrimination of axial strain and temperature. (b) In the second method, a single sensing element has been used to encode strain and temperature into an additional parameter other than the wavelength shift. The thermal out-diffusion of germanium from the core of a photosensitive fiber under elevated temperature is exploited to form a Fabry-Perot filter with a single Fiber Bragg Grating. The filter is fabricated using the standard phase-mask technique and one-time exposure. Energy Dispersive X-Ray analysis is used to measure the out-diffusion. The filter is used as a sensor for simultaneous measurement and discrimination of strain and temperature. The proposed technique, where a single grating is used to discriminate the parameters, provides a large advantage over other existing methods. (c) In the third method, a compact design based on cross-wire arrangement of Fiber Bragg Gratings having identical Bragg resonance and different reflectivity is proposed for simultaneously sensing strain (uniaxial) and temperature. Two gratings are assembled orthogonal to each other on an aluminium base. The cross-wire design allows the two sensors to experience the same temperature but different strain. The gratings are identified by their respective reflectivity and, strain and temperature are resolved from the shift in Bragg wavelength. The proposed design exploits the fact that strain is a vector and temperature is a scalar parameter. This sensor has wide industrial application in discriminating strain from temperature effects.

Bragg Grating

Photosensitivity

Germanosilicate Fibers

Fiber Bragg Gratings

Fiber Bragg Grating Sensors

Anomolous Thermal Dynamics

Nano-Indentation

Pre-strained Gratings

Germania

Fabry-Perot Filter

Germano-silicate Optical Fiber

FBG Sensors

Instrumentation

All-Fiber Sensing Techniques For Structural Health Monitoring And Other Applications

Madhav, Kalaga Venu

09 1900

In this thesis, we explore the four aspects of fiber Bragg grating sensors: mathematical modeling of Fiber Bragg Grating response/spectral characteristics, fabrication using phase mask, application and interrogation. Applications of fiber Bragg gratings, also known as in-fiber gratings, with emphasis on their sensing capabilities, interrogation of an array of sensors and their performance in structural health monitoring scenario are documented. First, we study the process of photosensitivity phenomenon in glasses, in particular GeO2:SiO2 glasses. For mathematical modeling we consider the 1-D refractive index profile along the propagation axis of an optical fiber drawn from the preform of such glasses. These 1-D index structures exhibit a bandgap for propagation along the fiber axis. We show how the bandgap is dependent on the two structural parameters: index periodicity and effective refractive index. The mathematical model provides the characteristics of three sensor parameters -resonance wavelength also known as the Bragg wavelength (λB ), filter bandwidth (ΔλB ), and reflectivity (R). We show that the evolution of the index structure in germanosilicate glasses is dependent on the inscription parameters such as exposure time, intensity of the laser used for inscribing, the interference pattern, and coherence of the laser system. In particular, a phase mask is used as the diffffacting element to generate the required interference pattern, that is exposed on the photosensitive fiber. We present a mathematical model of the electromagnetic diffraction pattern behind the phase mask and study the effect of the limited coherence of the writing laser on the interference pattern produced by the diffracting beams from the mask. Next, we demostrate the sensing capabilities of the fiber Bragg gratings for measuring strain, temperature and magnetic fields. We report linearity of 99.7% and sensitivity of 10.35pm/◦C for the grating temperature sensor. An array of gratings assigned with non-overlapping spectral windows is inscribed in a single fiber and applied for distributed sensing of structural health monitoring of an aircraft’s composite air-brake panel. The performance of these sensors is compared with the industry standard resistance foil gauges. We report good agreement between the two gauges (FBG and RSG). In some applications it is more desirable to know the spectral content, rather than the magnitude of perturbation. Fiber Bragg gratings sensors can be used to track events that occur in a very small span of time and contain high frequencies. Such applications demand very high speed wavelength demodulation methods. We present two interrogation techniques: wavelength-shift time-stamping (WSTS) and reflectivity division multiplexing (RDM). WSTS interrogation method employs the multiple threshold-crossing technique to quantize the sensor grating fluctuations and in the process produces the time stamps at every level-cross. The time-stamps are assembled and with the a priori knowledge of the threshold levels, the strain signal is reconstructed. The RDM methodology is an extension of the WSTS model to address multiple sensors. We show that by assigning unique reflectivities to each of the sensors in an array, the time-stamps from each of the sensors can be tagged. The time-stamps are collected by virtue of their corresponding pulse heights, and assembled to reconstruct the strain signal of each of the array sensor. We demonstrate that the two interrogation techniques are self-referencing systems, i.e., the speed at which the signals are reconstructed is instantaneous or as fast as the signal itself.

Structural Health Monitoring

Optical Devices

Fiber Optics

Fiber Bragg Gratings (FBG)

Optical Fibers - Photosensitivity

Fiber Bragg Grating Sensor

Photonic Bandgap

Fabricated Gratings

FBG Fabrication

Grating

Fiber Sensing

Reflectivity Division Multiplexing

Instrumentation

Sistemes nanoestructurats mitjançant monocapes de Langmuir

Vallvé Antón, Maria dels Àngels

18 June 2010

Els treballs presentats en aquesta tesi fan referència a sistemes amb estructures d’escales nanomètriques. L’estructura d'aquests sistemes s’obté mitjançant la formació de monocapes de Langmuir, dipositant dissolucions de molècules amfifíliques o suspensions de partícules col•loïdals sobre la superfície de l'aigua. Per una banda, s’han preparat monocapes de Langmuir de la molècula fotosensible 8Az3COOH. Mitjançant la tècnica de Langmuir-Blodgett, aquestes monocapes han estat transferides sobre substrats sòlids que, posteriorment, s’han utilitzat per a formar cel•les de cristall líquid. Aquestes permeten visualitzar les estructures transferides, similars a les observades en la monocapa de Langmuir, però no presenten fotosensibilitat. Les monocapes de Langmuir de 8Az3COOH també s’han utilitzat per a estudiar la dinàmica de les estructures i els defectes observats mitjançant microscòpia d’angle Brewster en la monocapa de Langmuir. Per altra banda, també s’han preparat monocapes de Langmuir-Blodgett de partícules col•loïdals de diòxid de silici per obtenir cristalls col•loïdals bidimensionals amb propietats fotòniques. / The works of this thesis are related to systems with structures in the nanoscale. The structure of these systems is obtained by preparing Langmuir monolayers, spreading solutions of amphiphilic molecules or suspensions of colloidal particles on the water surface. On the one hand, Langmuir monolayers of the photosensitive molecule 8Az3COOH have been prepared. These monolayers have been transferred on solid substrates by the Langmuir-Blodgett technique. Later, these substrates have been used to build liquid crystal cells. These cells allow us to visualize the transferred structures, which are similar to those observed in the Langmuir monolayer, but they do not show photosensitivity. The Langmuir monolayers of 8Az3COOH have also been used to study the dynamics of the structures and the defects observed by Brewster angle microscopy in the Langmuir monolayers. On the other hand, Langmuir-Blodgett monolayers of silica particles have been prepared in order to obtain two-dimensional colloidal crystals with photonic properties.

Langmuir-Blodgett

Fotosensibilitat

Fotosensibilidad

Photosensitivity

Cristalls líquids

Cristales líquidos

Liquids crystals

Dinàmica de defectes

Dinámica de defectos

Dynamics of defects

Cristalls col.loïdals 2D

Cristales coloidales 2D

2D colloidal crystals

Ciències Experimentals i Matemàtiques

53

Photostructuration par laser infrarouge femtoseconde de verres photosensibles de phosphates de zinc, d'argent et de gallium / Photostructurable infrared femtosecond laser glass photosensitive phosphate zinc, silver and gallium

Bourhis, Kevin

23 November 2011

La focalisation de lasers à impulsions ultra-brèves dans les verres a montré des potentialités importantes pour la structuration des matériaux transparents, permettant d’envisager la réalisation de dispositifs tout-optique en une seule étape. Le développement de nouveaux matériaux vitreux de composition 40P2O5-55ZnO-xAg2O-(5-x)Ga2O3 permet de tirer avantage de la photosensibilité de l’ion Ag+ pour la structuration de propriétés optiques au cœur du matériau. L’augmentation du taux d’oxyde de gallium provoque la dépolymérisation des chaînes phosphates et s’accompagne de la réticulation du réseau vitreux par des polyèdres GaOx (4 ≤ x ≤ 6). La formation de des derniers n’affecte pas les propriétés d’émission lumineuses, qui proviennent des ions Ag+ isolés dans différents sites cristallographiques. L’exposition des verres sous faisceau laser intense provoque la formation de centres-trous Ag2+, responsables d’une luminescence intense, et de pièges d'électrons Ag0. Un traitement thermique consécutif ou simultané à l’irradiation provoque la dissociation de ces espèces, et s’accompagne de la formation d’agrégats moléculaires de la forme Agmx+. L’utilisation d’un laser femtoseconde à haute cadence permet, en combinant création de paires électron-trou et élévation locale de la température, de réaliser des architectures complexes conduisant à la structuration de propriétés optiques. / The development of new vitreous materials in the 40P2O5-55ZnO-xAg2O-(5-x)Ga2O3 diagram permits to take advantage of the Ag+ ion photosensitivity for structuring optical properties within the material. Increasing the gallium oxide content leads to the depolymerisation of the phosphate chains and the reticulation of the glass network by GaOx polyhedra (4 ≤ x ≤ 6). The formation of the latters does not affect the luminescence properties which are related to silver ions in various crystallographic environments. The intense laser exposure of the glasses leads to the formation of Ag2+ hole centers responsible for an intense luminescence and electron traps Ag0. A subsequent or simultaneous heat treatment provokes the dissociation of the hole centers and is accompanied by the formation of Agmx+ molecular-like clusters. The use of a high repetition rate femtosecond laser combining electrons and hole traps and temperature rising permits to obtain complex features leading to the structuring of optical properties.

Verres phosphates d'argent

Argent, zinc, gallium

Photosensibilité

Interaction laser-matériau

Optique non-linéaire

Silver phosphate glasses

Silver, zinc, gallium

Photosensitivity

Laser-matter interaction

Nonlinear optics

Demonstration of a Broadband Photodetector Based on a 2D Metal–Organic Framework

Arora, Himani, Dong, Renhao, Venanzi, Tommaso, Zscharschuch, Jens, Schneider, Harald, Helm, Manfred, Feng, Xinliang, Cánovas, Enrique, Erbe, Artur

29 October 2020

Metal–organic frameworks (MOFs) are emerging as an appealing class of highly tailorable electrically conducting materials with potential applications in optoelectronics. Yet, the realization of their proof-of-concept devices remains a daunting challenge, attributed to their poor electrical properties. Following the authors’ recent report on a semiconducting Fe₃(THT)₂(NH₄)₃ (THT: 2,3,6,7,10,11-triphenylenehexathiol) 2D MOF with record-high mobility and band-like charge transport, here, Fe₃(THT)₂(NH₄)₃ MOF-based photodetector operating in photoconductive mode capable of detecting a broad wavelength range from UV to NIR (400–1575 nm) is demonstrated. The narrow IR bandgap of the active layer (≈0.45 eV) constrains the performance of the photodetector at room temperature by band-to-band thermal excitation of charge carriers. At 77 K, the device performance is significantly improved; two orders of magnitude higher voltage responsivity, lower noise equivalent power, and higher specific detectivity of 7 × 10⁸ cm Hz¹/² W⁻¹ are achieved under 785 nm excitation. These figures of merit are retained over the analyzed spectral region (400–1575 nm) and are commensurate to those obtained with the first demonstrations of graphene and black phosphorus based photodetectors. This work demonstrates the feasibility of integrating conjugated MOFs as an active element into broadband photodetectors, thus bridging the gap between materials’ synthesis and technological applications.

info:eu-repo/classification/ddc/540

ddc:540

info:eu-repo/classification/ddc/660

ddc:660

The Physiological and Developmental Effects of Sulfur Nutrition and Light Intensity on Sulfur Deficiency Symptoms in <i>Phaseolus Vulgaris</i>

Harney, Dennis James

17 April 2003

No description available.

Biology, Plant Physiology

bean

Phaseolus vulgaris

developmental index

developmental age

plant age

plastochron index

plastochron index derived days

sulfur

sulfur nutrition

sulfur deficiency

light

light level

light sensitivity

photosensitivity

Extension de l'approche par la courbe maitresse de la prédiction des durées de vie de réseaux d'indice complexes inscrits par UV dans les fibres / Extension of the master-curve approach for lifetimes predictions of complex componants based on fiber bragg gratings written by uv exposure

Costes, Sylvain

04 June 2013

L’objectif principal de cette thèse était d’examiner dans quelle mesure il est possible d’étendre l’approche de la courbe maîtresse à des composants complexes afin de déterminer des conditions de déverminage et de réaliser une prédiction de durée de vie en fonction de ces conditions de déverminage. Nous avons considéré la stabilité d’un réseau dit élémentaire (réseau carré, à pas constant et droit) puis le problème de la stabilité (selon des critères spécifiques) des composants complexes: les CDC et les monofiltres GFF. Cette thèse a permis de décrire de façon rigoureuse, puis d'utiliser le cadre de travail VAREPA pour résoudre des problèmes issus de l'industrie de télécoms. A cet effet, des séries d’études de vieillissement accéléré sur des réseaux simples et complexes ont été menées. Un protocole de mesure permettant de déterminer les incertitudes de mesure a été mis au point afin de déterminer de façon fiable des intervalles de confiance sur les prédictions de durée de vie.Nous avons étudié les cinétiques de croissance des réseaux inscrits dans une fibre dédiée à l’inscription des CDC (Coreactive). Cette étude nous a permis de montrer que la réaction prédominante à l’origine des changements d’indice de réfraction est activée par une absorption à 1 photon. D’autre part, nous avons étendu le cadre de travail utilisé pour prédire l’effacement des réseaux (VAREPA) afin de rendre compte de leurs cinétiques d’inscription. Puis nous avons cherché à déterminer les conditions de passivation et à prédire la durée de vie des réseaux déverminés en présence d’hydrogène résiduelle (procédé industriel actuel). Pour cela, nous avons établi la courbe maîtresse de réseaux photoinscrits non déverminés puis nous avons validé les conditions de déverminage et les prédictions de durée de vie en construisant une nouvelle courbe maîtresse sur des réseaux déverminés.Nous avons étudié la stabilité thermique des réseaux inscrits dans une fibre hydrogénée dédiée aux futurs monofiltres GFF dans des conditions d’inscription similaires à celles de ces composants. Nous avons utilisé les courbes maîtresses établies à partir des réseaux élémentaires (mais apodisés) simplement dégazés « à froid » (ici 2jours à 50°C puis 2 jours à 110°C). Puis, nous avons fait vieillir le profil d’indice (cœur et gaine) d’un monofiltre GFF. Puis, nous avons recalculé la réponse spectrale de ce filtre vieilli (e.g. 30jours à 200°C) et nous l’avons comparé à des mesures expérimentales. Cette approche reste générale et permet de changer les conditions de déverminage au besoin. Cette étude nous a permis de mettre en évidence que la stabilité des variations d’indice photo-induites dans le cœur dépend peu de l’amplitude initiale de la modulation pour des valeurs comprises entre quelques 10-5 et 10-3. Du fait de la présence d’une gaine optique fortement photosensible (car fortement dopée en Ge), nous avons établi les courbes maîtresses des variations d’indice photo-inscrites dans le cœur et la gaine optique pour des valeurs allant jusque 10-3 dans le cœur et 3.10-3 dans la gaine. Nous avons ainsi obtenu des courbes maîtresses présentant le même k0 (fréquence d'essai, i.e facteur pré exponentiel) mais dont la forme est légèrement différente. La stabilité des variations d’indice est meilleure dans le cœur (moins dopé en Ge) que dans la gaine photosensible. Dans un second temps, nous avons cherché à déterminer les conditions de passivation et à prédire la durée de vie des réseaux déverminés à partir des réseaux de Bragg qualifiés d’élémentaires. Pour la première fois à notre connaissance, nous avons validé de façon fiable les conditions de passivation et les prédictions de durée de vie en construisant une nouvelle courbe maîtresse sur des monofiltres GFF préalablement déverminés. Conformément à la théorie, cette courbe maîtresse présente le même k0 et une forme similaire à celle établie au moyen de réseaux non déverminés, ce qui valide la fiabilité de nos prédictions. / The main objective of this thesis was to investigate how it is possible to extend the master curveapproach to complex components, in order to calculate annealing conditions and giving a life timeprediction according those annealing conditions. We studied the stability of a simple Bragg grating (noapodisation, constant pitch, no tilt). Then, we have been able to study the problem of the stability(according to specific criteria) of complex components: CDC and GFF monofilters. This thesis allowed toshow precisely what is the VAREPA framework and how to apply it to optical telecommunicationsproblems. To give an answer to the question of the possibility of extending the master curve approach tocomplex components, series of accelerate aging studies have been carried out. For this purpose, ameasurement protocol including the determination of the measurement uncertainty was developed. Thisprotocol allow, to determine confidence intervals on the life time prediction.We studied the kinetics of photo induced index growth in the optical fiber dedicated forfabrication of CDC (Coreactive). This study allowed us to demonstrate that the predominant reaction atthe origin of changes in refractive index is activated by a one photon absorption. On the other hand wehave extended the VEREPA framework used to predict the Bragg gratings erasure to take into account thegrowing kinetics. In a second step we tried to calculate annealing conditions in the presence of residualmolecular hydrogen and associated Bragg grating life time prediction. For that purpose we established themaster curve of photo-induced Bragg gratings without annealing, then we validated the annealingconditions and lifetime predictions by building a new master curve from aging of annealed Bragg gratings(in presence of residual hydrogen).We studied the thermal stability of hydrogenated fiber Bragg gratings dedicated to futuremonofiltres GFF in similar conditions to those components. We used master curves from basic Bragggratings (ie no apodisation, constant pitch, no tilt) simply out-gazed at "cold" temperature (here 2 days at50 ° C and 2 days at 110 ° C). Then the aging of the index profile of a GFF monofilter have beensimulated (index profile of the core and of the cladding, each of them having a different master curve).For that purpose the profile have been separated into 35 "basic" filters. Then the spectral response of thisaged monofilter (e.g. 30 days at 200°C) have been calculated and compared with experimentalmeasurements. The advantage of this approach is that it is general and allow to change the annealingconditions if needed. Firstly, this study allowed to highlight that the stability of photo-induced indexchanges in the core depend little on the initial amplitude modulation for values between several 10-5 and10-3. Secondly, due to the presence of a highly sensitive optical cladding (and therefore highly Ge doped),Master curves, of photo-induced index change in the core and the cladding have been established forvalues ranging up to 10-3 in the core and 3.10-3 in the cladding. Master Curves with the same k0 havebeen obtained but the elbow and the slopes are different. Stability of index variations in the core is better(less Ge doped) than in the photosensitive cladding. In a second step, from the basic Bragg gratings, theannealing conditions and the lifetime have been determined. For the first time to our knowledge, thereliably of the annealing conditions and the life time predictions have been validated by building a newmaster curve on annealed GFF monofilters. According to the theory, this master curve show the same k0as the one determined using non-annealed gratings. More beyond the elbow, the two curves are same,which validates the reliability of our predictions.

Fibre optique

Réseau de Bragg

Vieillissement

VAREPA

Courbe maitresse

CDC

GFF

Compensateur dispersion et chromatique

Filtre égalisateur de gain

Prédiction durée de vie

Complexe

Photosensibilité

Télécommunication

Optical fiber

Bragg grating

Aging

VAREPA

Master curve

CDC

GFF

Chromatic dispertion compensator

Gain flattening filter

Life time prediction

Complex

Photosensitivity

Telecommunication