Asservissement de deux lasers séparés d'une fréquence micro-onde sur un interféromètre à fibre

National audienceNous présentons une méthode permettant d'asservir simultanément sur un interféromètre deux lasers séparés d'une fréquence micro-onde. Cette méthode repose sur l’utilisation de la technique Pound- Drever-Hall [2] qui est très largement utilisée pour l’asservissement sur les cavités Fabry-Perot. Les deux lasers sont des diodes lasers bas bruit (modèle ORION), émettant autour de 1542 nm et séparés de 20 GHz. La sortie de chacun des lasers est modulée en phase par un modulateur électrooptique fibré (EOM) alimenté par un signal RF de fréquence différente (ν1=14 MHz et ν2=34 MHz)

Experimentally based simulations on modulated lidar for shallow underwater target detection and localization

14 pagesInternational audienceLight detection and ranging (LIDAR) is currently used for bathymetric measurement or underwater target detection. A new underwater-target detection scheme named modulated lidar was recently proposed. The study reported here deals with optimization of the modulation process to be applied under such detection conditions. A theoretical model was extracted from available experimental results by deconvolution and further used to simulate realistic backscattered signals for the development of a new modulation scheme. Then, an optimum set of amplitude modulation code parameters was obtained by maximizing the target signal-to-noise ratio. This paper will highlight some particularly promising waveform configurations

A large genome-wide association study of age-related macular degeneration highlights contributions of rare and common variants.

This is the author accepted manuscript. The final version is available from Nature Publishing Group via http://dx.doi.org/10.1038/ng.3448Advanced age-related macular degeneration (AMD) is the leading cause of blindness in the elderly, with limited therapeutic options. Here we report on a study of >12 million variants, including 163,714 directly genotyped, mostly rare, protein-altering variants. Analyzing 16,144 patients and 17,832 controls, we identify 52 independently associated common and rare variants (P < 5 × 10(-8)) distributed across 34 loci. Although wet and dry AMD subtypes exhibit predominantly shared genetics, we identify the first genetic association signal specific to wet AMD, near MMP9 (difference P value = 4.1 × 10(-10)). Very rare coding variants (frequency <0.1%) in CFH, CFI and TIMP3 suggest causal roles for these genes, as does a splice variant in SLC16A8. Our results support the hypothesis that rare coding variants can pinpoint causal genes within known genetic loci and illustrate that applying the approach systematically to detect new loci requires extremely large sample sizes.We thank all participants of all the studies included for enabling this research by their participation in these studies. Computer resources for this project have been provided by the high-performance computing centers of the University of Michigan and the University of Regensburg. Group-specific acknowledgments can be found in the Supplementary Note. The Center for Inherited Diseases Research (CIDR) Program contract number is HHSN268201200008I. This and the main consortium work were predominantly funded by 1X01HG006934-01 to G.R.A. and R01 EY022310 to J.L.H

Opto-alimentation et transmission de données par fibre optique pour les observatoires de fond de mer

This thesis is devoted to the study of a 10 km long all-optical network dedicated to extend a current cabled seafloor observatory, in order to reach new exploration areas. The research work described in this thesis demonstrates the feasibility of this all-optical link between a remote instrument and a shore station with a single 10 km long optical fiber, which simultaneously transmits the energy required to supply the instrument (several hundred milliwatts) and bidirectional data in real time.The thesis context is presented trough an analysis of the cabled seafloor observatories and of the power-over-fiber. The choice of a single optical fiber and the presence of high optical power complicate the implementation of this all-optical extension, and they cause the appearance of interactions between the optical energy dedicated to the power supply (@1480 nm) and the exchanged data (@1550 nm). Throughout this document, the technological choices are explained and the optical nonlinear effects are described, simulated and analyzed experimentally, such as Raman, Brillouin, and Rayleigh scattering and Amplified Spontaneous Emission (ASE). The proposed all-optical extension has been characterized in static and dynamic regimes with measures of the optical link budget, the Signal-to-Noise Ratio (SNR), and the Bit Error Ratio (BER). The results show the possibility to power the remote instrument with 160 mW, when using a continuous high optical laser source of 33 dBm without huge degradation of the bidirectional data transmitted simultaneously (BER<10-7).Ce mémoire de thèse est consacré à l’étude d’une liaison tout-optique longue de 10 km dédiée à l’extension d’un observatoire câblé de fond de mer existant afin d’atteindre de nouvelles zones d’exploration. Les travaux de recherche qui y sont rapportés démontrent la faisabilité de cette liaison tout-optique entre un instrument déporté et une station terrestre avec une seule fibre optique longue de 10 km, qui transmet simultanément la puissance, nécessaire à l’alimentation de l’instrument (quelques centaines de milliwatts), et des données bidirectionnelles en temps réel.Le contexte de cette thèse est présenté au travers d’un état de l’art sur les observatoires câblés et sur la puissance sur fibre. Le choix de la fibre unique et la présence de fortes puissances optiques complexifient la mise en oeuvre de cette extension tout-optique, et sont à l’origine de l’apparition d'interactions entre l’énergie optique dédiée à l'alimentation (@1480 nm) et les données échangées (@1550 nm). Tout au long de ce document, les choix technologiques retenus sont argumentés et les effets optiques non linéaires tels que les diffusions Raman, Brillouin, Rayleigh, l’Émission Spontanée Amplifiée (ASE) sont décrits, modélisés et analysés expérimentalement. L’extension tout-optique proposée a été caractérisée à la fois en régimes statique et dynamique par des mesures du bilan de liaison, du rapport signal à bruit (SNR) et du taux d’erreur binaire (BER). Les résultats obtenus montrent la possibilité de fournir 160 mW électrique à l’instrument déporté en utilisant une source optique continue de 33 dBm sans dégrader excessivement les données bidirectionnelles transmises simultanément (BER<10-7)

Power and data over fiber for seafloor observatories

Ce mémoire de thèse est consacré à l’étude d’une liaison tout-optique longue de 10 km dédiée à l’extension d’un observatoire câblé de fond de mer existant afin d’atteindre de nouvelles zones d’exploration. Les travaux de recherche qui y sont rapportés démontrent la faisabilité de cette liaison tout-optique entre un instrument déporté et une station terrestre avec une seule fibre optique longue de 10 km, qui transmet simultanément la puissance, nécessaire à l’alimentation de l’instrument (quelques centaines de milliwatts), et des données bidirectionnelles en temps réel.Le contexte de cette thèse est présenté au travers d’un état de l’art sur les observatoires câblés et sur la puissance sur fibre. Le choix de la fibre unique et la présence de fortes puissances optiques complexifient la mise en oeuvre de cette extension tout-optique, et sont à l’origine de l’apparition d'interactions entre l’énergie optique dédiée à l'alimentation (@1480 nm) et les données échangées (@1550 nm). Tout au long de ce document, les choix technologiques retenus sont argumentés et les effets optiques non linéaires tels que les diffusions Raman, Brillouin, Rayleigh, l’Émission Spontanée Amplifiée (ASE) sont décrits, modélisés et analysés expérimentalement. L’extension tout-optique proposée a été caractérisée à la fois en régimes statique et dynamique par des mesures du bilan de liaison, du rapport signal à bruit (SNR) et du taux d’erreur binaire (BER). Les résultats obtenus montrent la possibilité de fournir 160 mW électrique à l’instrument déporté en utilisant une source optique continue de 33 dBm sans dégrader excessivement les données bidirectionnelles transmises simultanément (BER<10-7).This thesis is devoted to the study of a 10 km long all-optical network dedicated to extend a current cabled seafloor observatory, in order to reach new exploration areas. The research work described in this thesis demonstrates the feasibility of this all-optical link between a remote instrument and a shore station with a single 10 km long optical fiber, which simultaneously transmits the energy required to supply the instrument (several hundred milliwatts) and bidirectional data in real time.The thesis context is presented trough an analysis of the cabled seafloor observatories and of the power-over-fiber. The choice of a single optical fiber and the presence of high optical power complicate the implementation of this all-optical extension, and they cause the appearance of interactions between the optical energy dedicated to the power supply (@1480 nm) and the exchanged data (@1550 nm). Throughout this document, the technological choices are explained and the optical nonlinear effects are described, simulated and analyzed experimentally, such as Raman, Brillouin, and Rayleigh scattering and Amplified Spontaneous Emission (ASE). The proposed all-optical extension has been characterized in static and dynamic regimes with measures of the optical link budget, the Signal-to-Noise Ratio (SNR), and the Bit Error Ratio (BER). The results show the possibility to power the remote instrument with 160 mW, when using a continuous high optical laser source of 33 dBm without huge degradation of the bidirectional data transmitted simultaneously (BER<10-7)

Amélioration du taux d’extinction d’une impulsion par modulation de phase et compression spectrale

International audienceNous introduisons et démontrons expérimentalement une nouvelle approche pour améliorer le taux d'extinction d'une impulsion affectée par un fond continu cohérent. Cette méthode repose sur une modulation temporelle par une phase sinusoïdale suivie d'une étape de recompression spectrale non-linéaire

Propagation non-linéaire de champs partiellement incohérents mais avec une cohérence mutuelle contrôlée

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Self-phase modulation patterns in optical fibres

International audienceSelf-phase modulation (SPM), one of those very fascinating effects discovered in the early days of nonlinear optics, refers to the phenomenon by which an intense optical beam propagating in a Kerr medium (e.g., an optical fibre) induces through the nonlinearity of the medium a modulation of its phase that is proportional to its own intensity profile [1]. For an input pulsed beam, the induced time-dependent phase change is associated with a modification of the optical spectrum, which depends on the initial frequency modulation (chirp) of the pulse electric field. If the pulse is initially Fourier-transform-limited or up-chirped, SPM leads to spectral broadening, whereas an initially down-chirped pulse is spectrally compressed by the effects of SPM [2]. For strong SPM, the optical spectrum can exhibit strong oscillations.In this work, firstly we present a simple theoretical approach to predict the main features of optical spectra affected by SPM, which is based on regarding the optical spectrum modification as an interference effect [3, 4]. The typical oscillatory character of the spectrum indeed originates from strong excursions of the instantaneous frequency, so that in general there are contributions from different times to the Fourier integral for a given frequency component. Depending on the exact frequency, these contributions may constructively add up or cancel each other. A two-wave interference model is found sufficient to describe the SPM-broadened spectra of initially transform-limited or up-chirped pulses, whereas a third wave should be included in the model for initially down-chirped pulses. Simple but fully tractable analytical formulae are derived, which accurately predict the positions of the extreme values of the spectra. The latter provide a more plausible measure of the spectrum extent than the approximate or root-mean-square expressions for the spectral bandwidth that are commonly used.Secondly, we discuss a simple technique to suppress undesirable SPM of optical pulses in fibre-optic systems, which is based on using an electro-optic phase modulator to impart the opposite phase to the pulses and, thus, emulates the use of a material with a negative nonlinear index of refraction. We present a proof-of-principle experiment demonstrating that for input pulses with standard intensity profiles, such as Gaussian or hyperbolic secant pulses, the use of a simple sinusoidal drive signal for the phase modulator with appropriate amplitude and frequency is sufficient to reduce the nonlinear spectrum broadening to a large degree, and to significantly enhance the spectral quality of the pulses while their temporal duration remains unaffected [5]. Further, we present an in-depth characterisation of the SPM mitigation by a sinusoidally time varying phase based on analytic results and numerical simulation of the governing equation [6]. We assess the effects of the initial pulse shape and duration on the effectiveness of the technique, and we highlight the differences between pre- and post-propagation compensation schemes.[1] F. Shimizu, "Frequency Broadening in Liquids by a Short Light Pulse," Phys. Rev. Lett 19, 1097-1100 (1967).[2] R. H. Stolen and C. Lin, "Self-phase modulation in silica optical fibers," Phys. Rev. A 17, 1448-1453 (1978).[3] C. Finot, F. Chaussard, and S. Boscolo, "Impact of a temporal sinusoidal phase modulation on the optical spectrum," Eur. J. Phys. 39, 055303 (2018).[4] C. Finot, F. Chaussard, and S. Boscolo, "Simple guidelines to predict self-phase modulation patterns," J. Opt. Soc. Am. B in press(2019).[5] F. Audo, S. Boscolo, J. Fatome, B. Kibler, and C. Finot, "Nonlinear spectrum broadening cancellation by sinusoidal phase modulation," Opt. Lett. 42, 2902-2905 (2017).[6] S. Boscolo, F. Audo, and C. Finot, "Impact of initial pulse characteristics on the mitigation of self-phase modulation by sinusoidally time varying phase," Opt. Quant. Electron 50, 62 (2018)

Self-phase modulation in optical fibres

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Fiber-based measurement of temporal intensity and phase profiles of an optical telecommunication pulse through self-phase modulation

International audienceWe propose and experimentally validate an all-fiber based approach to characterize the phase and intensity profiles of optical pulses. Based on three optical spectra affected by different levels of self-phase modulation, we were able to reconstruct the temporal details of pulses typical of optical telecommunications