Bibliographies thématiques / Optical ring cavity

Littérature scientifique sur le sujet « Optical ring cavity »

Auteur : Grafiati
Publié le 10 mars 2023

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Articles de revues sur le sujet "Optical ring cavity"

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Jin, Miao, Jiang Yan-Yi, Fang Su, Bi Zhi-Yi et Ma Long-Sheng. « Vibration insensitive optical ring cavity ». Chinese Physics B 18, no 6 (juin 2009) : 2334–39. http://dx.doi.org/10.1088/1674-1056/18/6/037.

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Xiaobing Xie, Xiaobing Xie, Xiaolei Zhu Xiaolei Zhu, Shiguang Li Shiguang Li, Xiuhua Ma Xiuhua Ma, Xiao Chen Xiao Chen, Yanguang Sun Yanguang Sun, Huaguo Zang Huaguo Zang, Jiqiao Liu Jiqiao Liu et Weibiao Chen Weibiao Chen. « Injection-seeded single frequency 2.05 μm output by ring cavity optical parametric oscillator ». Chinese Optics Letters 15, no 9 (2017) : 091902. http://dx.doi.org/10.3788/col201715.091902.

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Kubstrup, Christian, et Erik Mosekilde. « Bifurcation structure of an optical ring cavity ». Physica Scripta T67 (1 janvier 1996) : 167–75. http://dx.doi.org/10.1088/0031-8949/1996/t67/033.

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Gong, Shang-qing, Shao-hua Pan et Guo-zhen Yang. « Optical bistability in a dye-ring cavity ». Physical Review A 45, no 9 (1 mai 1992) : 6655–58. http://dx.doi.org/10.1103/physreva.45.6655.

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Petnikova, V. M., et Vladimir V. Shuvalov. « Optimal feedback in efficient ring double-cavity optical parametric oscillators ». Quantum Electronics 40, no 7 (10 septembre 2010) : 624–28. http://dx.doi.org/10.1070/qe2010v040n07abeh014311.

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Telfah, Hamzeh, Anam C. Paul et Jinjun Liu. « Aligning an optical cavity : with reference to cavity ring-down spectroscopy ». Applied Optics 59, no 30 (16 octobre 2020) : 9464. http://dx.doi.org/10.1364/ao.405189.

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Loock, Hans-Peter, Jack A. Barnes, Gianluca Gagliardi, Runkai Li, Richard D. Oleschuk et Helen Wächter. « Absorption detection using optical waveguide cavities ». Canadian Journal of Chemistry 88, no 5 (mai 2010) : 401–10. http://dx.doi.org/10.1139/v10-006.

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Cavity ring-down spectroscopy is a spectroscopic method that uses a high quality optical cavity to amplify the optical loss due to the light absorption by a sample. In this presentation we highlight two applications of phase-shift cavity ring-down spectroscopy that are suited for absorption measurements in the condensed phase and make use of waveguide cavities. In the first application, a fiber loop is used as an optical cavity and the sample is introduced in a gap in the loop to allow absorption measurements of nanoliters of solution at the micromolar level. A second application involves silica microspheres as high finesse cavities. Information on the refractive index and absorption of a thin film of ethylene diamine on the surface of the microresonator is obtained simultaneously by the measurements of the wavelength shift of the cavity mode spectrum and the change in optical decay time, respectively.
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Levenson, M. D., B. A. Paldus, T. G. Spence, C. C. Harb, J. S. Harris Jr et R. N. Zare. « Optical heterodyne detection in cavity ring-down spectroscopy ». Chemical Physics Letters 290, no 4-6 (juillet 1998) : 335–40. http://dx.doi.org/10.1016/s0009-2614(98)00500-4.

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Burkart, Johannes, Daniele Romanini et Samir Kassi. « Optical feedback frequency stabilized cavity ring-down spectroscopy ». Optics Letters 39, no 16 (6 août 2014) : 4695. http://dx.doi.org/10.1364/ol.39.004695.

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Hamilton, D. J., M. G. D. Nix, S. G. Baran, G. Hancock et A. J. Orr-Ewing. « Optical feedback cavity-enhanced absorption spectroscopy (OF-CEAS) in a ring cavity ». Applied Physics B 100, no 2 (12 novembre 2009) : 233–42. http://dx.doi.org/10.1007/s00340-009-3811-6.

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Thèses sur le sujet "Optical ring cavity"

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Adachihara, Hatsuo. « Modulational instability in optical ring cavity ». Diss., The University of Arizona, 1989. http://hdl.handle.net/10150/184744.

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The optical ring cavity has been studied for about ten years, both theoretically and experimentally. In these studies the uniform plane wave approximation has been used. In this work we investigate effects which result from the retention of the transverse diffraction. We establish that transverse structure is inevitable since plane wave fixed points are susceptible to transverse instabilities (modulational instability). We show that this instability is a universal mechanism for initiating various interesting and complicated, yet understandable, dynamical responses in a one and a two transverse dimensional cavity.
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Sinclair, Stephen W. « Dynamic instabilities in a nonlinear ring cavity ». Thesis, University of Strathclyde, 1989. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.293235.

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Ye, Zongxiong. « Bidirectional optical operation of a ring cavity driven by an external field / ». Philadelphia, Pa. : Drexel University, 2004. http://dspace.library.drexel.edu/handle/1860/273.

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Pahwa, Komal. « Magneto optical trapping of potassium-39 in a ring cavity ». Thesis, University of Birmingham, 2014. http://etheses.bham.ac.uk//id/eprint/5533/.

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This thesis focuses on the construction and development of an experiment to study cold potassium atoms in an optical ring cavity. Firstly we load a potassium-39 magneto optical trap (MOT) inside the ring cavity. To achieve this a laser system, rectangular magnetic coils system and vacuum system are designed and constructed. To stabilise the laser system, a detailed study of various potassium spectroscopy techniques is undertaken and the reference laser is suitably locked to the magnetically induced spectroscopy. We load an ensemble of 10\(^5\) potassium atoms inside the ring cavity mode and study their collective strong coupling with the cavity field. In the collective strong coupling regime, the photons are coherently exchanged between the atomic ensemble and cavity field. This rate of exchange is determined by the singlephoton Rabi frequency `2\(g\)' which must be larger than the cavity field decay rate `2\(k\)' and atomic spontaneous emission rate `2\(ᵧ\)'. As a result of this coupling, the peak in the cavity transmission signal undergoes a splitting known as `vacuum Rabi splitting' (or `normal mode splitting'). The vacuum Rabi splitting has been realised and measured to be ~ 2\(π\). 18 MHz in our system.
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Abujnah, Nabeil Abduljallil Abubaker. « Numerical modelling of optical micro-cavity ring resonators for WDM networks ». Thesis, University of South Wales, 2011. https://pure.southwales.ac.uk/en/studentthesis/numerical-modelling-of-optical-microcavity-ring-resonators-for-wdm-networks(ac752a5d-5bf1-4ee6-8345-c20fe8aea769).html.

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Augmenting the level of integration for a lower cost and enhancing the performance of the optical devices have turned out to be the focus of many research studies in the last few decades. Many distinct approaches have been proposed in a significant number of researches in order to meet these demands. Optical planar waveguides stand as one of vital employed approach in many studies. Although, their low propagation loss, and low dispersion, they suffers from high power losses at sharp bends. For this reason, large radius of curvature is required in order to achieve high efficiency and compromise the high level of integration. For the purpose of this research, in this thesis different ways to improve the performance of optical microcavity ring resonators (MRRs) have been thoroughly investigated and new configurations have been proposed. The Multiresolution Time Domain (MRTD) technique was further developed and employed throughout this thesis as the main numerical modelling technique. The MRTD algorithm is used as a computer code. This code is developed and enhanced using self built Compaq Visual Fortran code. Creating the structure and Post-processing the obtained data is carried out using self built MATLAB code. The truncating layers used to surround the computational domain were Uniaxial Perfectly Matched Layers (UPML). The accuracy of this approach is demonstrated via the excellent agreement between the results obtained in literature using FDTD method and the results of MRTD. This thesis has focused on showing numerical efficiency of MRTD where the mesh size allowed or the total number of computed points is about half that used with FDTD. Furthermore, the MRR geometry parameters such as coupling gap size, microring radius of curvature, and waveguide width have been thoroughly studied in order to predict and optimise the device performance. This thesis also presents the model analysis results of a parallel-cascaded double-microcavity ring resonator (PDMRR). The analysis is mainly focus on the extraction of the resonant modes where the effect of different parameters of the structure on transmitted and coupled power is investigated. Also, accurate analysis of 2D coupled microcavity ring resonator based on slotted waveguides (SMRR) has been thoroughly carried out for the purpose of designing optical waveguide delay lines based on slotted ring resonator (SCROW). The SCROW presented in this thesis are newly designed to function according to the variation of the resonance coupling efficiency of a slotted ring resonators embedded between two parallel waveguides. The slot of the structures is filled with SiO2 and Air that cause the coupling efficiency to vary which in turn control both the group velocity and delay time of SCROW structures results from the changing the properties of the bent slotted waveguide modes which strongly depends on the slot’s position. Significant improvements on the quality factor and greater delay time have been achieved by introducing sub-wavelength-low-index slot into conventional waveguide.
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Culver, Robert Alan. « Collective strong coupling of cold potassium atoms in an optical ring cavity ». Thesis, University of Birmingham, 2017. http://etheses.bham.ac.uk//id/eprint/7319/.

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This thesis describes an experiment which studies a cloud of magneto-optically trapped potassium-39 atoms inside an optical ring cavity. The potassium atoms are firstly cooled in a two-dimensional magneto-optical trap (MOT) and are then transferred into a three dimensional MOT which overlaps with the cavity mode. In this thesis, the optimisation of the MOT systems and the characterisation and construction of the optical ring cavity are discussed. After exploring these two systems independently, the two systems are then coupled together to provide an atom-cavity system, which exhibits collective strong coupling. The system is shown to exhibit normal-mode splitting, with a collective Rabi splitting of G = 2π (6.25±0.50)MHz, corresponding to (4.7±0.6) x 103 atoms in the cavity. Whilst collective strong coupling has been achieved before in other experiments, we believe this is the first experiment to achieve this with potassium. The next goal in the experiment is to control the group refractive index of the atoms inside the cavity. The modification of the group index using electromagnetically-induced transparency (EIT) on hot atoms inside a vapour cell has already been previously demonstrated by this experiment; and using the same laser system we aim to demonstrate EIT on the cold intra-cavity atoms as well. Gain mechanisms could also be used to create a ring laser with a controllable group index. These techniques could lead to a range of applications such as enhanced-sensitivity laser ring gyroscopes and active optical clocks.
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Zhu, Xijing. « Investigation of Aerosol Optical and Chemical Properties Using Humidity Controlled Cavity Ring-Down Spectroscopy ». PDXScholar, 2017. https://pdxscholar.library.pdx.edu/open_access_etds/4032.

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Scientists have been observing a change in the climate since the beginning of the 20th century that cannot be attributed to any of the natural influences of the past. Natural and anthropogenic substances and processes perturb the Earth's energy budget, contributing to climate change. In particular, aerosols (particles suspended in air) have long been recognized to be important in processes throughout the atmosphere that affect climate. They directly influence the radiative balance of the Earth's atmosphere, affect cloud formation and properties, and are also key air pollutants that contribute to a variety of respiratory and cardiovascular diseases. Despite their importance, aerosol particles are less well-characterized than greenhouse gases with respect to their sources, temporal and spatial concentration distribution, and physical and chemical properties. This uncertainty is mainly caused by the variable and insufficiently understood sources, formation and transformation processes, and complex composition of atmospheric particles. Instruments that can precisely and accurately measure and characterize the aerosol physical and chemical properties are in great demand. Atmospheric relative humidity (RH) has a crucial impact on the particles' optical properties; the RH dependence of the particle extinction coefficient is an important parameter for radiative forcing and thus climate change modeling. In this work a Humidity-Controlled Cavity Ring-Down (HC-CRD) aerosol optical instrument is described and its ability to measure RH dependent extinction coefficients and related hygroscopicity parameters is characterized. The HC-CRD is capable of simultaneously measuring the aerosol extinction coefficient at three wavelengths (λ = 355, 532, and 1064 nm) and three different RHs (typically 20%, 50%, and 80%). A range of chemicals and their mixtures were used to produce laboratory generated aerosols. Three mixture systems include one inorganic salts mixture system consisting of (NH4)2SO4, NH4HSO4, Na2SO4, NaHSO4 serve as surrogates of the ionic salts found in the atmosphere. Two organic mixture systems were investigated: mixtures of NaCl, D-glucose, sucrose, and glycine are benchmarks for compounds emitted from biomass burning. Finally, mixtures of (NH4)2SO4 (ammonium sulfate, AS) with a series of dicarboxylic acids including malonic acid, adipic acid, and azelaic acid are used as benchmarks to mimic urban pollutants. The extinction coefficients were obtained as a function of RH from the HC-CRD measurements, from which optical growth factors f(RH) and γ(RH) values can be determined to examine their dependence on chemical composition. A volume mixing rule was used to calculate the effective refractive index of the binary substrate mixtures, since both size and composition change during water uptake. The SDA/FMC algorithm developed by O'Neill, et al. 2005 is used to extract the van de Hulst phase shift parameter (Ρeff) from three-wavelength measurements of extinction. The fine mode fraction of extinction (η) and fine mode effective radius (Reff) of laboratory generated aerosol particles can be then determined. An iterative algorithm was developed to retrieve the change in refractive index of particles as function of RH. The calculated Reff of aerosols at different RHs were used to obtain the physical size growth factor (gf), and κ(RH). The size changes as a function of water uptake describe the dependence of aerosol optical properties on chemical composition. This work demonstrates the capability of conducting aerosol optical measurements using HC-CRD to determine the RH dependence of aerosol optical properties. The HC-CRD measurements combined with the SDA/FMC method to retrieve aerosol size for laboratory generated aerosols establish the connection between the optical properties and the aerosol particles' chemical compositions. It also underlines the importance and need for future investigation on the hygroscopic properties of atmospheric aerosols. This work is successfully developed a method that enables using the aerosols optical measurements to predict the compositions; it will greatly contribute to the atmospheric aerosol measurement and global climate modelling.
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Alvarado, Francisco Javier. « A nonlinear stability analysis of rhombic optical pattern formation in an atomic sodium vapor ring cavity ». Online access for everyone, 2005. http://www.dissertations.wsu.edu/Dissertations/Summer2005/f%5Falvarado%5F072105.pdf.

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Elsässer, Thilo [Verfasser]. « Optical Bistability and Collective Behaviour of Atoms Trapped in a High-Finesse Ring Cavity / Thilo Elsässer ». Aachen : Shaker, 2004. http://d-nb.info/1170530060/34.

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Li, Jing. « Applications of optical-cavity-based spectroscopic techniques in the condensed phase ». Thesis, University of Oxford, 2014. http://ora.ox.ac.uk/objects/uuid:d6a0c476-e67f-4390-a63a-e3cb9e60bf2c.

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Cavity ring-down spectroscopy (CRDS) and cavity enhanced absorption spectroscopy (CEAS) are two well-established absorption spectroscopic techniques originally developed for gas-phase samples. Condensed-phase applications of these techniques still remain rare, complicated as they are by additional background losses induced by condensed-phase samples as well as the intracavity components in which the sample is constrained. This thesis is concerned with the development and application of optical-cavity-based techniques in the condensed phase. Polarization-dependent evanescent wave CRDS (EW-CRDS) has been used to study the molecular orientation at the solid/air and solid/liquid interfaces. An increase in average orientation angle with respect to the surface normal has been observed for both methylene blue and coumarin molecules as a function of coverage at the fused silica/air interface. An orientation-angle-dependent photobleaching of pyridin molecules at the fused silica/methanol interface have also been observed. EW-CRDS has also been used to monitor slow in situ photobleaching of thin dye films deposited on the prism surface. The photobleaching dynamics is interpreted as a combination of first- and second-order processes. A significant fraction of this thesis has been devoted to studying magnetic field effects (MFEs) on the kinetics of the radical pair (RP) reactions in solution, in an effort to understand the ability of animals to sense the geomagnetic field. Two novel optical-cavity-based techniques – broadband CEAS (BBCEAS) and CRDS have been developed for this purpose. BBCEAS uses a supercontinuum (SC) source as the cavity light source and a CCD camera as photodetector, enabling simultaneous acquisition of absorption spectrum across the whole visible region (400 – 800 nm). In CRDS, a tunable optical parametric oscillator has been used as the cavity light source. Combined with the switching of external magnetic field (SEMF) method, this technique allows the decay kinetics of the geminate RPs to be monitored, with nanosecond resolution. Both BBCEAS and CRDS provide sensitivity superior to single-pass transient absorption (TA), a technique traditionally used in the MFE studies. A series of photochemical systems have been studied by BBCEAS and CRDS, respectively, among which, the MFEs of drosophila melanogaster cryptochrome has been observed. Importantly, this is the first time an MFE has been observed in an animal cryptochrome, and provides key supporting evidence for the cryptochrome hypothesis of magnetoreception in animals. Besides the optical-cavity-based techniques, a novel fluorescence detection method of MFEs has also been demonstrated. This technique proved ultrahigh sensitivity when applicable.
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Livres sur le sujet "Optical ring cavity"

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Michimura, Yuta. Tests of Lorentz Invariance with an Optical Ring Cavity. Singapore : Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-3740-5.

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Michimura, Yuta. Tests of Lorentz Invariance with an Optical Ring Cavity. Springer, 2018.

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Michimura, Yuta. Tests of Lorentz Invariance with an Optical Ring Cavity. Springer, 2017.

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Michimura, Yuta. Tests of Lorentz Invariance with an Optical Ring Cavity. Springer, 2017.

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Chapitres de livres sur le sujet "Optical ring cavity"

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Michimura, Yuta. « Optical Ring Cavity ». Dans Tests of Lorentz Invariance with an Optical Ring Cavity, 27–44. Singapore : Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-3740-5_3.

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Karras, Christian. « Cavity Ring-Down Technique for Optical Coating Characterization ». Dans Optical Characterization of Thin Solid Films, 433–56. Cham : Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-75325-6_16.

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Hamilton, D. J., M. G. D. Nix, S. G. Baran, G. Hancock et A. J. Orr-Ewing. « Optical feedback cavity-enhanced absorption spectroscopy (OF-CEAS) in a ring cavity ». Dans TDLS 2009, 1–10. Berlin, Heidelberg : Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-02292-0_1.

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Michimura, Yuta. « Introduction ». Dans Tests of Lorentz Invariance with an Optical Ring Cavity, 1–3. Singapore : Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-3740-5_1.

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Michimura, Yuta. « Tests of Lorentz Invariance ». Dans Tests of Lorentz Invariance with an Optical Ring Cavity, 5–25. Singapore : Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-3740-5_2.

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Michimura, Yuta. « Experimental Setup ». Dans Tests of Lorentz Invariance with an Optical Ring Cavity, 45–62. Singapore : Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-3740-5_4.

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Michimura, Yuta. « Data Analysis ». Dans Tests of Lorentz Invariance with an Optical Ring Cavity, 63–78. Singapore : Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-3740-5_5.

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Michimura, Yuta. « Conclusion ». Dans Tests of Lorentz Invariance with an Optical Ring Cavity, 79–83. Singapore : Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-3740-5_6.

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Michimura, Yuta. « Appendix ». Dans Tests of Lorentz Invariance with an Optical Ring Cavity, 85–113. Singapore : Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-3740-5_7.

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Wollkind, David J., et Bonni J. Dichone. « Nonlinear Optical Ring-Cavity Model Driven by a Gas Laser ». Dans Comprehensive Applied Mathematical Modeling in the Natural and Engineering Sciences, 423–55. Cham : Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-73518-4_17.

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Actes de conférences sur le sujet "Optical ring cavity"

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Jiang, Wenbo, Meixiong Chen, Wei Tian, Jie Yuan et Guangming Xu. « Improved cavity ring-down system for high precision measurement of the specific modes' loss in ring cavity ». Dans SPIE Optical Systems Design, sous la direction de Angela Duparré et Roland Geyl. SPIE, 2015. http://dx.doi.org/10.1117/12.2196394.

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Firth, W. J., et S. W. Sinclair. « Optimised instability thresholds in a nonlinear Ring-Cavity ». Dans Optical Bistability. Washington, D.C. : Optica Publishing Group, 1988. http://dx.doi.org/10.1364/obi.1988.we.5.

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Optical bistability (OB) and instabilities in passive ring resonators containing Kerr media are described by the delay-differential system [1]: where E(t) is the intracavity field, τ the medium response time and ϕO the cavity mistuning. The nonlinear phase shift is denoted by ϕ(t).
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Srobar, Fedor. « Dispersive optical bistability in unidirectional ring cavity ». Dans Photonics, Devices, and Systems II, sous la direction de Miroslav Hrabovsky, Dagmar Senderakova et Pavel Tomanek. SPIE, 2003. http://dx.doi.org/10.1117/12.498518.

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Gao, Li-feng, Sheng-ming Xiong, Bin-cheng Li et Yong-dong Zhang. « High reflectivity measurement with cavity ring-down technique ». Dans Optical Systems Design 2005, sous la direction de Claude Amra, Norbert Kaiser et H. Angus Macleod. SPIE, 2005. http://dx.doi.org/10.1117/12.627774.

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Hodges, S. E., W. Gadomski et M. G. Raymer. « Conical Ring Emission from a Microcavity Dye Laser ». Dans Nonlinear Dynamics in Optical Systems. Washington, D.C. : Optica Publishing Group, 1990. http://dx.doi.org/10.1364/nldos.1990.stdopd181.

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Conical ring emission from a micro-cavity dye laser has been observed and modeled. The presence of rings is surprising since the dye used is spectrally broad enough to allow emission into the angles between rings.
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Ni, N., C. C. Chan, X. Y. Dong, J. Sun et P. Shum. « Cavity ring-down long period fiber grating strain sensor ». Dans Optical Fiber Sensors. Washington, D.C. : OSA, 2006. http://dx.doi.org/10.1364/ofs.2006.tue80.

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Le Berre, M., E. Ressayre, A. Tallet et J. J. Zondy. « Spatio-Temporal Instabilities in a Saturable Homogeneously Broadened Ring Cavity ». Dans Optical Bistability. Washington, D.C. : Optica Publishing Group, 1988. http://dx.doi.org/10.1364/obi.1988.fc.4.

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The plane-wave saturable homogeneously broadened ring cavity displays rich sequences of bifurcations and high-dimensional chaos when the atomic radiative lifetime ɤ–1 is of order of magnitude or shorter than the round-trip time of the light through the cavity, τR. This delayed-feedback system exhibits low-dimensional bifurcations (periodic and quasi-periodic oscillations, intermittencies) as already analyzed and observed in ordinary nonlinear systems.
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Silva, Susana, et Orlando Frazao. « Recent Advances in Fiber Cavity Ring-down Technology ». Dans Special Session on Optical Sensors. SCITEPRESS - Science and Technology Publications, 2017. http://dx.doi.org/10.5220/0006258303510355.

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Belić, Milivoj R., Milan Petrović, Jörg Leonardy et Friedemann Kaiser. « Optical Transistor Based on a Photorefractive Ring Cavity ». Dans The European Conference on Lasers and Electro-Optics. Washington, D.C. : Optica Publishing Group, 1996. http://dx.doi.org/10.1364/cleo_europe.1996.ctue6.

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The invention of electronic transistors revolutionized the field of electronics. There have been many attempts to achieve transistor action in different optical circuits [1]. Photorefractive materials possess features (strong response at low power levels and parallel processing) which are convenient for realization of optical circuits that, are functionally similar to different, electronic devices [2]. We use these advantages to propose an optical transistor based on a bidirectional PR ring resonator, whose operation is functionally similar to the operation of a bipolar junction transistor.
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Belic, M. R., M. Petrovic, J. Leonardy et F. Kaiser. « Optical Transistor Based on a Photorefractive Ring Cavity ». Dans Proceedings of European Meeting on Lasers and Electro-Optics. IEEE, 1996. http://dx.doi.org/10.1109/cleoe.1996.562080.

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Rapports d'organisations sur le sujet "Optical ring cavity"

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Tedela, Getachew. Measurement of Aerosol Optical Properties by Integrating Cavity Ring-Down Spectroscopy and Nephelometry. Fort Belvoir, VA : Defense Technical Information Center, janvier 2013. http://dx.doi.org/10.21236/ada596463.

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2

Zhu, Xijing. Investigation of Aerosol Optical and Chemical Properties Using Humidity Controlled Cavity Ring-Down Spectroscopy. Portland State University Library, janvier 2000. http://dx.doi.org/10.15760/etd.5916.

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3

Radney, James. Development of a Nephelometry Camera and Humidity Controlled Cavity Ring-Down Transmissometer for the Measurement of Aerosol Optical Properties. Portland State University Library, janvier 2000. http://dx.doi.org/10.15760/etd.907.

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