Bibliografías temáticas / Optical nanocavity

Literatura académica sobre el tema "Optical nanocavity"

Autor: Grafiati

Publicado: 27 de julio de 2024

Última modificación: 28 de julio de 2024

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Artículos de revistas sobre el tema "Optical nanocavity"

Lu, Tsan-Wen, Zhen-Yu Wang, Kuang-Ming Lin y Po-Tsung Lee. "Lasing Emission from Soft Photonic Crystals for Pressure and Position Sensing". Nanomaterials 13, n.º 22 (15 de noviembre de 2023): 2956. http://dx.doi.org/10.3390/nano13222956.

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In this report, we introduce a 1D photonic crystal (PhC) nanocavity with waveguide-like strain amplifiers within a soft polydimethylsiloxane substrate, presenting it as a potential candidate for highly sensitive pressure and position optical sensors. Due to its substantial optical wavelength response to uniform pressure, laser emission from this nanocavity enables the detection of a minimum applied uniform pressure of 1.6‰ in experiments. Based on this feature, we further studied and elucidated the distinct behaviors in wavelength shifts when applying localized pressure at various positions relative to the PhC nanocavity. In experiments, by mapping wavelength shifts of the PhC nanolaser under localized pressure applied using a micro-tip at different positions, we demonstrate the nanocavity’s capability to detect minute position differences, with position-dependent minimum resolutions ranging from tens to hundreds of micrometers. Furthermore, we also propose and validate the feasibility of employing the strain amplifier as an effective waveguide for extracting the sensing signal from the nanocavity. This approach achieves a 64% unidirectional coupling efficiency for leading out the sensing signal to a specific strain amplifier. We believe these findings pave the way for creating a highly sensitive position-sensing module that can accurately identify localized pressure in a planar space.

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Goltaev, A. S., A. M. Mozharov, V. V. Yaroshenko, D. A. Zuev y I. S. Mukhin. "Investigation of a single-photon hybrid emitting system based on NV-centers in nanodiamonds integrated with GaP NWs". Journal of Physics: Conference Series 2086, n.º 1 (1 de diciembre de 2021): 012142. http://dx.doi.org/10.1088/1742-6596/2086/1/012142.

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Abstract NV-centers can be used for quantum informatics, quantum communication and quantum sensing. The calculation of optical modes formed in a GaP cylindrical nanocavity covered by nanodiamonds has been performed. GaP nanowires have been synthesized with molecular beam epitaxy and played the role of optical resonators for light-emitting centers on the base of nanodiamonds with NV-centers. The optical characteristics of the GaP-based nanocavity were analyzed. The increase in the rate of spontaneous emission of NV-centers optically coupled to the nanocavity was estimated by the time correlated single photon counting method.

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Guo, Haomin, Qi Hu, Chengyun Zhang, Haiwen Liu, Runmin Wu y Shusheng Pan. "Strong Plasmon-Mie Resonance in Si@Pd Core-Ω Shell Nanocavity". Materials 16, n.º 4 (9 de febrero de 2023): 1453. http://dx.doi.org/10.3390/ma16041453.

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The surface plasmon resonance (SPR) and localized surface plasmon resonance (LSPR) can be used to enhance the generation of the hot electrons in plasmon metal nanocavity. In this paper, Pd nanomembrane (NMB) is sputtered on the surface of Si nanosphere (NS) on glass substrate to form the Si@Pd core-Ω shell nanocavity. A plasmon-Mie resonance is induced in the nanocavity by coupling the plasmon resonance with the Mie resonance to control the optical property of Si NS. When this nanocavity is excited by near-infrared-1 (NIR-1, 650 nm–900 nm) femtosecond (fs) laser, the luminescence intensity of Si NS is dramatically enhanced due to the synergistic interaction of plasmon and Mie resonance. The generation of resonance coupling regulates resonant mode of the nanocavity to realize multi-dimensional nonlinear optical response, which can be utilized in the fields of biological imaging and nanoscale light source.

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Xiao, Ting-Hui, Ziqiang Zhao, Wen Zhou, Mitsuru Takenaka, Hon Ki Tsang, Zhenzhou Cheng y Keisuke Goda. "High-Q germanium optical nanocavity". Photonics Research 6, n.º 9 (29 de agosto de 2018): 925. http://dx.doi.org/10.1364/prj.6.000925.

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Li, Yang, Xuecai Zhang, Yutao Tang, Wenfeng Cai, Kuan Liu, Ningbin Mao, Kingfai Li et al. "Ge₂Sb₂Te₅-based nanocavity metasurface for enhancement of third harmonic generation". New Journal of Physics 23, n.º 11 (1 de noviembre de 2021): 115009. http://dx.doi.org/10.1088/1367-2630/ac3317.

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Abstract The third-order nonlinear processes in nanophotonic devices may have great potentials for developing ultra-compact nonlinear optical sources, ultrafast optical switches and modulators, etc. It is known that the performance of the nonlinear nanophotonic devices strongly relies on the optical resonances and the selection of appropriate nonlinear materials. Here, we demonstrate that the third harmonic generations (THG) can be greatly enhanced at subwavelength scale by incorporating α-Ge2Sb2Te5 (α-GST) into the nanocavity metasurface. Under pumping of a near-infrared femtosecond laser, the THG from the nanocavity metasurface is ∼50 times stronger than that from the bare GST planar film. In addition, the nanocavity metasurface also provides a powerful platform for characterizing the third-order nonlinear susceptibility of the active medium in the cavity. We expect that the GST-based nanocavity metasurface could open new routes for achieving high efficiency nonlinear nanophotonic devices.

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Li, Xuwei, Tingting Zhang, Zhengkun Fu, Bowen Kang, Xiaohu Mi, Meijuan Sun, Chengyun Zhang, Zhenglong Zhang y Hairong Zheng. "Plasmonic nanocavity enhanced vibration of graphene by a radially polarized optical field". Nanophotonics 9, n.º 7 (27 de marzo de 2020): 2017–23. http://dx.doi.org/10.1515/nanoph-2019-0553.

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AbstractThe combination of 2D materials and surface plasmon can produce some novel optical phenomena that have attracted much attention. Illuminated by light with different polarization states, the field distribution around the plasmonic structure can control the light-matter interaction. The interaction between graphene and light can be strongly enhanced by employing radially polarized beams in a nanocavity. Here, we study the selectively enhanced vibration of graphene in a coupled plasmonic gold nanocavity with a radially polarized optical field, and the coupling and enhancing mechanisms are investigated both experimentally and numerically. By focusing a radially polarized beam, a high z component of a localized near field in the nanocavity is provided to strongly enhance the interaction between graphene and light, which can be used to enhance the vibrational signal of the interlayer. For the in-plane vibration of graphene, a similar enhancement is obtained with a linearly and radially polarized optical field. A plasmonic nanocavity is used to enhance the vibration of graphene, which provides potential applications in studying the out-of-plane vibration mode and exploring the mechanism of the interlayer coupling of 2D materials.

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Cluzell, Benoit, Loic Lalouat, Philippe Velha, Emmanuel Picard, David Peyrade, Jean-Claude Rodier, Thomas Charvolin, Philippe Lalanne, Frédérique de Fornel y Emmanuel Hadji. "A near-field actuated optical nanocavity". Optics Express 16, n.º 1 (2008): 279. http://dx.doi.org/10.1364/oe.16.000279.

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Wang, Zeqiang, Boyuan Cai, Zhengfen Wan, Yunyue Zhang, Xiaoguang Ma, Min Gu y Qiming Zhang. "Low-Threshold Optical Bistability in the Graphene-Oxide Integrated Asymmetric Nanocavity at Visible Light Frequencies". Nanomaterials 12, n.º 7 (28 de marzo de 2022): 1117. http://dx.doi.org/10.3390/nano12071117.

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Here, we propose an optical bistable device structure with a few layers of graphene oxide integrated in the metal-dielectric-metal based asymmetric nanocavity. Through the light confinement in the nanocavity, the third order nonlinear absorption of graphene oxide can be significantly enhanced, which experimentally delivers low-threshold optical bistability at the visible wavelength of 532 nm with only 267 KW/cm2 intensity. In addition, the switching threshold can be further reduced via increasing the graphene oxide thickness, hence paving a new way for achieving tunable optical bistable devices at visible light frequencies.

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Lio, Giuseppe Emanuele, Giovanna Palermo, Roberto Caputo y Antonio De Luca. "A comprehensive optical analysis of nanoscale structures: from thin films to asymmetric nanocavities". RSC Advances 9, n.º 37 (2019): 21429–37. http://dx.doi.org/10.1039/c9ra03684a.

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Bidmeshkipour, Samina, Omid Akhavan, Pooria Salami y Leila Yousefi. "Aperiodic perforated graphene in optical nanocavity absorbers". Materials Science and Engineering: B 276 (febrero de 2022): 115557. http://dx.doi.org/10.1016/j.mseb.2021.115557.

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Tesis sobre el tema "Optical nanocavity"

Renaut, Claude. "Nanopinces optiques sur puce pour la manipulation de particules diélectriques". Thesis, Dijon, 2014. http://www.theses.fr/2014DIJOS010/document.

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Les nanocavités optiques sur puces sont devenues aujourd'hui des objets de base pour le piégeage et la manipulation d'objets colloïdaux. Nous étudions dans cette thèse des nanocavités comme briques de bases du piégeage et de la manipulation par forces optiques. La preuve de concept du piégeage de microsphères diélectriques apparaît comme le point de départ de l'élaboration d'un laboratoire sur puce. Dans le premier chapitre nous parcourons la bibliographie de l'utilisation des forces optiques en espace libre et en milieu confiné pour le piégeage de particules. Le second chapitre présente les dispositifs expérimentaux pour la caractérisation des nanocavités et les outils mis en place pour les mesures optiques en présence de particules colloïdales. Le troisième chapitre explique la preuve de concept du piégeage de particules de polystyrène de 500 nm, 1 et 2 µm. Dans le chapitre qui suit nous analysons le piégeage de particules en fonction de la puissance injectée dans la cavité. Le chapitre cinq décrit quelques exemples des possibilités de fonctions de manipulation de particules grâce à des cavités couplées. Enfin, dans le dernier chapitre nous montrons les assemblages de particules sur les différents types de cavités étudiées dans cette thèse
On chips optical nanocavities have become useful tools for trapping and manipulation of colloidal objects. In this thesis we study the nanocavities as building blocks for optical forces, trapping and handling of particles. Proof of concept of trapping dielectric microspheres appears as the starting point of the development of lab on chip. In the first chapter we go through the literature of optical forces in free space and integrated optics. The second chapter presents the experimental tools for the characterization of nanocavities and the set-up developed to perform optical measurements with the colloidal particles. The third chapter describes the proof-of-concept trapping of polystyrene particles of 500 nm, 1 and 2 µm. In the following chapter we analyze the particle trapping as function of the injected power into the cavities. The chapter five gives some examples of the possibilities of particles handling functions with coupled cavities. Eventually, in the last chapter we show assemblies of particles on different geometry of cavities studied in this thesis

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Lenglé, Kévin. "Traitement tout optique du signal à base de composants à cristaux photoniques en matériaux semiconducteurs III-V". Thesis, Rennes 1, 2013. http://www.theses.fr/2013REN1S104/document.

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Ces travaux de thèse sont consacrés à l'étude expérimentale de fonctions de traitement optique de signaux, multiplexés en longueur (WDM) ou en temps (OTDM), à base de composants à cristaux photoniques (CPh) en matériaux semi-conducteurs III-V réalisés dans le cadre du projet européen Copernicus. Les propriétés dispersives singulières qu'il est possible d'obtenir dans ces structures ont été étudiées au travers d'effets non linéaires améliorés dans le régime de lumière lente. Ainsi, une étude sur le mélange à quatre ondes a été réalisée avec des applications de conversion de longueur d'onde à haut débit et de démultiplexage temporel. Par ailleurs, de la génération de seconde harmonique a été démontrée avec une efficacité record pour ce type de structure, et appliquée au monitoring de signaux télécoms à 42,5 Gbit/s. Des nanocavités CPh ont été utilisées en tant que filtres extracteurs de longueurs d'onde pour démontrer le démultiplexage d'un signal WDM à 100 Gbit/s. Par la suite, nous avons travaillé sur une plate-forme photonique hybride. L'intégration hétérogène de nanocavités CPh en semi-conducteurs III-V sur des guides silicium nous a permis de réaliser de la commutation optique très rapide appliquée à des fonctions de conversion de longueur d'onde jusqu'à 20 Gbit/s et de limiteur de puissance à 10 Gbit/s. Tous ces résultats sont très prometteurs pour l'intégration photonique avec la micro-électronique et la technologie CMOS. Par le biais de ces travaux, nous montrons que les cristaux photoniques, de par leurs propriétés de conﬁnement et de ralentissement de la lumière, sont des structures particulièrement intéressantes pour la réalisation de fonctions de traitement du signal sur porteuse optique
This thesis is devoted to the experimental study of optical processing functions, of wavelength multiplexed (WDM) or time multiplexed (OTDM) signals, based on III-V semiconductors photonic crystals (PhC) devices produced in the European project Copernicus. The unique dispersive properties that is possible to obtain in such a structure were studied through nonlinear effects enhanced in slow light regime. Thus, a study of four-wave mixing was performed with high bit rate wavelength conversion and time demultiplexing applications. Moreover, second harmonic generation has been demonstrated with record efficiency for such a structure, and applied to 42.5 Gbit/s telecom signals monitoring. PhC nanocavities were used as wavelength drop filter to demonstrate 100 Gbit/s WDM signal demultiplexing. Thereafter, we worked on hybrid photonic platform. The heterogeneous integration of III-V PhC nanocavity on silicon waveguide allowed us to perform very fast optical switching, applied to wavelength conversion up to 20 Gbit/s and power limiting function at 10 Gbit/s. All of these results are very promising for future photonic integration with micro-electronics and CMOS technology. Through this work, we show that PhC, owing to their confinement and slow light properties, are structures particularly interesting to perform optical processing functions

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Finazzer, Matteo. "Boîtes quantiques accordées par contrainte mécanique et nanostructures photoniqueslarge bande pour le traitement quantique de l'information". Electronic Thesis or Diss., Université Grenoble Alpes, 2024. http://www.theses.fr/2024GRALY014.

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Les sources de photons uniques indiscernables accordables en longueur d’onde sont des composants clés pour les technologies quantiques de l'information. La réalisation d'un tel dispositif avec une boîte quantique semi-conductrice (BQ) nécessite un "bouton" pour accorder la longueur d'onde de l’émetteur et une structure photonique offrant une grande efficacité d'extraction de la lumière sur une large bande passante. Cette thèse présente plusieurs étapes importantes vers cet objectif.Nous étudions tout d'abord une cavité nanonocylindre, structure photonique qui, bien que très simple, offre une forte accélération de l'émission spontanée par effet Purcell sur une large bande passante. Pour la première fois, nous réalisons une spectroscopie strictement résonante d'une BQ intégrée dans une telle structure, en exploitant une détection avec une polarisation croisée pour supprimer la lumière parasite associée au laser d’excitation (collaboration avec le groupe de Richard Warburton). Ceci a permis une caractérisation fine des propriétés optiques de l'émetteur.Nous démontrons ensuite une source de photons uniques accordable basée sur une BQ intégrée dans une antenne à fil photonique. Des électrodes intégrées appliquent une force électrostatique qui tord le fil ; la déformation mécanique qui en résulte modifie l'énergie de bande interdite des BQs. Nous contrôlons la direction de flexion du fil et démontrons le décalage, vers les grandes comme vers les courtes longueurs d’ondes, de l'émission des BQs.En utilisant une tension alternative, l'actuation électrostatique peut également exciter les modes de vibration du nanofil. Cette capacité est intéressante dans le contexte de la nanomécanique hybride. Dans ces expériences, nous tirons parti de la photoluminescence des BQs pour détecter et identifier les modes de vibration mécaniques. En particulier, nous mettons en évidence un mode de flexion d'ordre élevé qui résonne à 190 MHz, une valeur qui dépasse le taux d’émission spontanée de la BQ. Ceci constitue une étape importante vers l’obtention du régime de bandes latérales résolues pour ce système.Les dispositifs étudiés dans ce travail ouvrent des perspectives très prometteuses pour les développements futurs de la photonique quantique et de la nanomécanique hybride
Bright and tunable sources of indistinguishable single photons are key devices for photonic quantum information technologies. Building such a source with a semiconductor quantum dot (QD) requires a “knob” to tune the QD emission wavelength combined with a broadband photonic structure for light extraction. This thesis reports several important steps towards this goal.We first investigate a nanocylinder cavity, a photonic structure that, despites its simplicity, offers a pronounced Purcell acceleration of spontaneous emission over a large spectral bandwidth. We demonstrate the first resonant optical spectroscopy of a QD embedded in a nanopost cavity, by leveraging a cross-polarization scheme that efficiently suppresses stray laser light (collaboration with the group of Richard Warburton). This technique enabled a precise characterization of the optical properties of the emitter.We next demonstrate a tunable single-photon source based on a QD embedded in a tapered photonic wire. In our device, a set of on chip electrodes biased with a DC voltage applies an electrostatic force to the wire. As the wire bends, the resulting mechanical strain changes the bandgap energy of the embedded QDs. We demonstrate both a large increase and a large decrease of the QD emission wavelength by controlling the wire bending direction.With an AC voltage, the above-mentioned actuation scheme can also excite the vibration modes of the nanowire. This capability is interesting in the context of hybrid nanomechanics. In our experiments, we leverage the QD photoluminescence to detect and identify the wire mechanical vibrations. In particular, we evidence a high-order flexural mode that resonates at 190 MHz, a value that exceeds the QD radiative rate. This constitutes an important step towards the spectrally-resolved-sidebands regime.The devices demonstrated in this work open promising prospects for the future developments of quantum photonics and hybrid nanomechanics

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Shakoor, Abdul. "Silicon nanocavity light emitters at 1.3-1.5 µm wavelength". Thesis, University of St Andrews, 2013. http://hdl.handle.net/10023/3673.

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Silicon Photonics has been a major success story in the last decade, with many photonic devices having been successfully demonstrated. The only missing component is the light source, however, as making an efficient light source in silicon is challenging due to the material's indirect bandgap. The development of a silicon light source would enable us to make an all-silicon chip, which would find many practical applications. The most notable among these applications are on-chip communications and sensing applications. In this PhD project, I have worked on enhancing silicon light emission by combining material processing and device engineering methods. Regarding materials processing, the emission level was increased by taking three routes. In all the three cases the emission was further enhanced by coupling it with a photonic crystal (PhC) cavity via Purcell effect. The three different approaches taken in this PhD project are listed below. 1. The first approach involves incorporation of optically active defects into the silicon lattice by hydrogen plasma treatment or ion implantation. This process results in broad luminescence bands centered at 1300 and 1500 nm. By coupling these emission bands with the photonic crystal cavity, I was able to demonstrate a narrowband silicon light emitting diode at room temperature. This silicon nano light emitting diode has a tunable emission line in the 1300-1600 nm range. 2. In the second approach, a narrow emission line at 1.28µm was created by carbon ion implantation, termed “G-line” emission. The possibility of enhancing the emission intensity of this line via the Purcell effect was investigated, but only with limited success. Different proposals for future work are presented in this regard. 3. The third approach is deposition of a thin film of an erbium disilicate on top of a PhC cavity. The erbium emission is enhanced by the PhC cavity. Using this method, an optically pumped light source emitting at 1.54 µm and operating at room temperature is demonstrated. A practical application of silicon light source developed in this project in gas sensing is also demonstrated. As a first step, I show refractive index sensing, which is a simple application for our source and demonstrates its capabilities, especially relating to the lack of fiber coupling schemes. I also discuss several proposals for extending applications into on-chip biological sensing.

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Mollaei, Yaghoub y Kaveh Shahmohammadi. "Design and Simulation of Nano-plasmonic Filter based on Nonlinear Nanocavity". Thesis, Karlstads universitet, Institutionen för ingenjörsvetenskap och fysik (from 2013), 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:kau:diva-75430.

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Cazier, Nicolas. "Effets d’optique non-linéaire d’ordre trois dans les cavités à cristaux photoniques en silicium : auto-oscillations GHz dues aux porteurs libres et diffusion Raman stimulée". Thesis, Paris 11, 2013. http://www.theses.fr/2013PA112337/document.

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Dans ce travail de thèse, nous avons étudié des effets d'optique non-linéaire d'ordre trois dans les cavités à cristaux photoniques en silicium. Le premier d'entre eux est un phénomène d'auto-oscillations à haute fréquence (GHz) dans ces cavités, qui a pour origine une modulation de la transmission de la cavité due à l'interaction entre la dispersion due aux porteurs libres et l’absorption à deux photons. Nous avons observé ces auto-oscillations, pour la première fois, dans les nanocavités à cristaux photoniques silicium avec une fréquence de l’ordre de 3 GHz et une grande pureté spectrale. Nous avons développé un modèle pour analyser les mécanismes qui régissent l'apparition de ces auto-oscillations, ainsi que les amplitudes des fréquences fondamentale et harmoniques de ces oscillations. Ce phénomène d'auto-oscillations permettrait de réaliser des sources micro-ondes en silicium très compactes. Le deuxième phénomène étudié est celui de la diffusion Raman, qui est le seul moyen d'obtenir des lasers entièrement en silicium démontré jusqu'à présent. Cette diffusion Raman a été mesurée tout d'abord dans des guides d'onde à cristaux photoniques étroits (W0.63) de longueur 100 microns, où nous avons pu obtenir un nombre de photons Stokes allant jusqu'à 9, montrant ainsi que la diffusion Raman stimulée prédominait dans ces guides d'onde, bien que nous n’ayons pas pu y obtenir un effet laser Raman franc. Nous avons ensuite mesuré la diffusion Raman dans des nanocavités doublement résonantes conçues spécifiquement à partir de ces guides d'ondes pour optimiser l'effet Raman, avec des facteurs de qualités allant jusqu'à 235000 pour la résonance Stokes. Bien que nous n'ayons pu mesurer que de la diffusion Raman spontanée dans ces cavités, avec un facteur de Purcell de 2.9, l'étude théorique que nous avons effectuée sur les lasers Raman, et qui s'accorde parfaitement avec les résultats expérimentaux, montre qu’il serait possible d'obtenir un laser Raman dans ces cavités avec un seuil en dessous du milliwatt à condition de diminuer ces pertes dues à l'absorption par porteurs libres. Ceci pourrait être accompli en diminuant le temps de vie des porteurs libres, par exemple en les retirant du silicium à l’aide d’une jonction MSM
In this thesis, we studied third order nonlinear optical effects in photonic crystal cavities. The first of those effects is is the phenomenon of high frequency (GHz) self-pulsing in these cavities, which originates from a modulation of the transmission of the cavity due to the interaction between the free-carrier dispersion and the two-photon absorption. We have observed these self-induced oscillations for the first time in silicon photonic crystal nanocavities, with a frequency of about 3 GHz and a high spectral purity. We have developed a model to analyze the mechanisms that govern the onset of these oscillations, as well as the amplitudes of the fundamental and harmonic frequencies of these oscillations. This self-pulsing phenomenon would allow us to realize realize ultra-compact microwave sources made of silicon. The second phenomenon studied is that of Raman scattering, which is the only way to obtain lasers fully in silicon demonstrated so far. The Raman scattering was measured first in narrow photonic crystals waveguides (W0.63) of length 100 microns, where we could obtain a number of Stokes photons up to 9, showing that the stimulated Raman scattering predominated in these waveguides, although we have not been able to obtain a true Raman laser effect in them. We then measured the Raman scattering in doubly resonant nanocavities specifically designed from these waveguides to optimize the Raman effect, with quality factors up to 235000 for the Stokes resonance. Although we could only measure spontaneous Raman scattering in these cavities, with a Purcell factor of 2.9, the theoretical study that we conducted on the Raman lasers, which agrees perfectly with the experimental results, shows that it would be possible to obtain a Raman laser in these cavities with a threshold below the milliwatt, provided we reduce the losses due to the free-carrier absorption. This could be accomplished by decreasing the free-carrier lifetime, for example by removing the free carriers from the silicon using a MSM junction

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Capítulos de libros sobre el tema "Optical nanocavity"

Kumar, Tarun, Samantha Rath y A. B. Bhattacherjee. "Dynamics of Double Nitrogen-Vacancy Centre in a Photonic Crystal Nanocavity: Optical Bistability and Four-Wave Mixing". En Springer Proceedings in Materials, 439–49. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-4685-3_63.

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Actas de conferencias sobre el tema "Optical nanocavity"

Lakhani, Amit M., Kyoungsik Yu y Ming C. Wu. "Subwavelength Semiconductor Nanocavity Laser". En Optical Fiber Communication Conference. Washington, D.C.: OSA, 2010. http://dx.doi.org/10.1364/ofc.2010.omq1.

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Asano, Takashi y Susumu Noda. "High-Q photonic nanocavity". En Optical Science and Technology, the SPIE 49th Annual Meeting, editado por Elizabeth A. Dobisz y Louay A. Eldada. SPIE, 2004. http://dx.doi.org/10.1117/12.560744.

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O'Faolain, Liam, Kapil Debnath y Thomas F. Krauss. "Low insertion loss Nanocavity optical modulators". En 2012 IEEE Photonics Conference (IPC). IEEE, 2012. http://dx.doi.org/10.1109/ipcon.2012.6358851.

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Smith, Cameron L. C., Simon Frederick, Christian Grillet, Christelle Monat, Dan Dalacu, Jean Lapointe, Philip J. Poole et al. "Tuning of Photonic Crystal Nanocavity Resonances". En 2007 the Joint International Conference on Optical Internet (COIN) and Australian Conference on Optical Fibre Technology (ACOFT). IEEE, 2007. http://dx.doi.org/10.1109/coinacoft.2007.4519205.

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Smith, Cameron L. C., Simon Frederick, Christian Grillet, Christelle Monat, Dan Dalacu, Jean Lapointe, Philip J. Poole et al. "Tuning of Photonic Crystal Nanocavity Resonances". En 2006 Australian Conference on Optical Fibre technology (ACOFT). IEEE, 2007. http://dx.doi.org/10.1109/acoft.2007.4516298.

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Lee, Chengkuo, Wenfeng Xiang, Jayaraj Thillaigovindan y Fu-Li Hsiao. "Nanomechanical cantilever sensor using optical nanocavity resonator". En 2009 4th IEEE International Conference on Nano/Micro Engineered and Molecular Systems. IEEE, 2009. http://dx.doi.org/10.1109/nems.2009.5068700.

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Cheltsov, Vladislav y Anton Cheltsov. "Arising of entangled photon in the high finesse nanocavity". En SPIE Optical Engineering + Applications, editado por Chandrasekhar Roychoudhuri, Andrei Yu Khrennikov y Al F. Kracklauer. SPIE, 2011. http://dx.doi.org/10.1117/12.892294.

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Noda, Susumu. "Optical Pulse Trapping by Ultra-high Q Nanocavity". En Slow and Fast Light. Washington, D.C.: OSA, 2007. http://dx.doi.org/10.1364/sl.2007.stub1.

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Fushman, Ilya, Dirk Englund, Hatice Altug, Bryan Ellis, Andrei Faraon y Jelena Vučković. "Ultrafast photonic crystal nanocavity lasers and optical switches". En Integrated Optoelectronic Devices 2008, editado por Marek Osinski, Fritz Henneberger y Keiichi Edamatsu. SPIE, 2008. http://dx.doi.org/10.1117/12.784422.

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Yacomotti, A. M., M. Brunstein, I. Sagnes, F. Raineri y J. A. Levenson. "Excitability in a nonlinear photonic crystal nanocavity". En 2011 13th International Conference on Transparent Optical Networks (ICTON). IEEE, 2011. http://dx.doi.org/10.1109/icton.2011.5971115.

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Informes sobre el tema "Optical nanocavity"

Scherer, Axel. Optical Logic With Gain: Photonic Crystal Nanocavity Switches. Fort Belvoir, VA: Defense Technical Information Center, julio de 2007. http://dx.doi.org/10.21236/ada469324.

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