Global ETD Search

11	Multimode Optomechanical Systems and Phononic Networks Kuzyk, Mark 11 January 2019 (has links) An optomechanical system consists of an optical cavity mode coupled to a mode of a mechanical oscillator. Depending on the configuration of the system, the optomechanical interaction can be used to drive or cool the mechanical mode, coherently swap the optical and mechanical states, or create entanglement. A multimode optomechanical system consists of many optical (mechanical) modes coupled to a mechanical (optical) mode. With the tools of the optomechanical interaction, multimode optomechanical systems provide a rich platform to study new physics and technologies. A central challenge in optomechanical systems is to mitigate the effects of the thermal environment, which remains significant even at cryogenic temperatures, for mechanical oscillators typically used in optomechanical systems. The central theme of this thesis is to study how the properties of multimode optomechanical systems can be used for such mitigation of thermal noise. The most straightforward extension of an optomechanical system to a multimode system is to have a single optical mode couple to two mechanical modes, or a single mechanical mode couple to two optical modes. In this thesis, we study both types of multimode system. In each case, we study the formation of a dark mode, an eigenstate of the three-mode system that is of particular interest. When the system is in a dark state, the two modes of similar character (optical or mechanical) interact with each other through the mode of dissimilar character, but due to interference, the interaction becomes decoupled from the properties of the dissimilar mode. Another interesting application of the three-mode system is two-mode optical entanglement, generated through mechanical motion. Such entanglement tends to be sensitive to thermal noise. We propose a new method for generating two-mode optical entanglement in the three-mode system that is robust against the thermal environment of the mechanical mode. Finally, we propose a novel, scalable architecture for a quantum computer. The architecture makes use of the concepts developed earlier in the thesis, and applies them to a system that on the surface looks quite different from the standard optomechanical system, but is formally equivalent. This dissertation includes previously published and unpublished coauthored material. Multimode Optomechanics Phononics Quantum Scalable
12	GPS-Trak Low Cost Alternative to Auto-Tracking Using GPS and Multimode Single Axis Antenna Techniques Sullivan, Arthur 10 1900 (has links) International Telemetering Conference Proceedings / October 26-29, 1992 / Town and Country Hotel and Convention Center, San Diego, California / The GPS Satellite System provides precise determination of time, space, and position of aerospace (airborne) vehicles during flight and flight test situations. The cost of "GPS" equipment has been decreasing dramatically -- a phenomenon similar to that which was experienced with "hand held" calculators 20 years or so ago. By the use of a multigain (and beam) antenna and GPS, a very low cost single axis system can be utilized for reception of telemetry and at the same time to provide accurate position, velocity, and acceleration information concerning the airborne vehicle. Autotrack Position Data Multimode Antenna Flight Testing
13	A ZigBee Transceiver Used in 2.45 GHz Band and a 2K/4K/8K Multimode Fast Fourier Transformation for DVB-H Receivers Lee, Lung-hsuan 11 July 2007 (has links) This thesis includes two topics. The first topic is a ZigBee transceiver used in 2.45 GHz band design. The second topic is a 2K/4K/8K multimode fast Fourier transformation ( FFT ) for DVB-H demodulators. The first topic includes simulations and hardware design. The chip is a physical layer design compliant with IEEE Std 802.15.4 standard, including a transmitter and a receiver for 2.45 GHz band. The measurement of the maximum power on silicon is about 731 £gW at 8 MHz. It is proved to be compliant with the low power consumption requirement specified by the standard. The second topic includes simulations and hardware design of an FFT for DVB-H demodulators. This processor is based on a pipeline architecture with radix-2, radix-22 and radix-23 computation element. We propose one sharing butterfly architecture to be used in the variable length FFT processor. ZigBee DVB-H Multimode Fast Fourier Transformation
14	Signal processing and incoherent-MIMO for multimode optical fibers Appaiah, Kumar 11 July 2014 (has links) Multimode fibers (MMF) are generally used in short and medium haul optical networks owing to the availability of low cost devices and inexpensive packaging solutions. However, the performance of conventional multimode fibers is limited primarily by the presence of high modal dispersion owing to large core diameters. While electronic dispersion compensation methods improve the bandwidth-distance product of MMFs, they do not utilize the fundamental diversity present in the different modes of the multimode fiber. This thesis draws from developments in wireless communication theory and signal processing to motivate the use of multiple-input multiple-output (MIMO) and signal processing techniques in MMF links. MIMO techniques that utilize the diversity of modes present in the fiber increase data rates and link reliability. Theoretical models for propagation effects in MMF systems are used to analyze and design the geometry of laser and detector arrays for MIMO-MMF links, and study how the design of these arrays impacts link performance. These models are also used to develop and evaluate low-complexity algorithms that efficiently utilize dense detector arrays, with "greedy subset selection" based on submodular optimization. Experimental evaluation of 1 × 1, 2 × 2, 3 × 3 and 4 × 4 MIMO systems have been conducted over various MMF media, including 100 m - 3 km silica MMF with externally modulated distributed feedback lasers and directly modulated vertical cavity surface emitting lasers (VCSELs), as well as with Fabry Perot lasers over 10 m - 100 m plastic MMF. The use of off-the-shelf components as well as the role of axial offset coupling in enhancing modal diversity has been experimentally quantified. The experimental techniques discussed in this thesis have enabled an increase of over 25× in the bandwidth-distance product of the MMF link, when compared to currently deployed MMF systems, such as 10GBASE-SR. / text Fiber optics Multimode fiber Modulation Communication Multiplexing
15	Measurement and Simulation of Parallel Plate Waveguide Structures in the Terahertz Region for Sensing and Material Characterization Applications Higgins, James Alexander 01 January 2012 (has links) The THz region is a burgeoning field of research with applications in spectroscopy, integrated circuit fabrication, bio-medicine, and communications. Until recently, the THz region was largely unexplored, mainly due to the technical difficulties involved in making efficient and compact sources and detectors. As these challenges are addressed, the focus of research has shifted to practical applications, such as sensing and imaging. The focus of this thesis is to investigate the characterization of parallel plate waveguide multimode propagation and periodically notched resonant structures for use in sensing and material parameter extraction applications. Broadband and narrowband measurements are presented and analyzed. Measurements are compared to finite difference time domain simulations and analytic solutions that use a Fourier transform mode-matching technique. Agreement is observed between simulation and measurement of radiation patterns. Weighted estimates of individual mode analytic solutions produce equivalent radiation patterns, which allows insight into the energy coupled into each respective mode. Results show that higher order modes contribute both a greater conductive attenuation and higher coupling loss. Agreement is also observed between measurements and simulated single and periodically notched resonant structures. Results demonstrate shifting of the resonant peak with respect to changes in plate separation for the periodically notched structure. For the single notch resonator, simulations indicate the resonant peak is dependent on notch depth until the depth-to-width ratio is greater than two. This work demonstrates that multimode propagation can be identified and the amount of energy coupled into each mode may be estimated using radiation patterns. Experiments using quasi-optical time domain spectroscopic and continuous wave vector network analyzer systems in the THz region have been demonstrated. Finite difference time domain simulations have validated measurements on both systems. The results presented will advance the field of THz research by aiding in the design and analysis of sensing and material parameter extraction systems Electromagnetism FDTD Simulation Multimode parallel plate waveguide
16	OPTIMIZATION OF DEVICE PERFORMANCE IN 1x2 SYMMETRIC INTERFERENCE MULTIMODE INTERFERENCE DEVICES VASSY, LOUIS PETERSON 02 July 2003 (has links) No description available. MMI multimode interference integrated optics waveguide
17	Integration of high coherence tunable semiconductor laser. Non linear multimode dynamics and route to single frequency operation. / Intégration de source laser à semi-conducteur accordable de haute cohérence. Dynamique multimode non linéaire et régime monofréquence. Chomet, Baptiste 05 April 2019 (has links) L’objectif général de ce projet de thèse est le développement industriel de source lasers accordables de haute cohérence à base de technologies III-V dans les gammes spectrales 0.95-1.1µm, et 2-2.5µm. Ce travail est le fruit d'un partenariat entre les laboratoires IES et C2N, avec la société INNOPTICS spécialisée dans l'intégration de composant opto-électronique.Il s'agit ici de tirer profit des nombreux avantages des composants VeCSELs (Vertical external Cavity Surface Emitting Laser) pour atteindre une combinaison des performances cohérence - puissance - accordabilité - compacité, inaccessible avec les technologies laser commerciales d'aujourd'hui. Pour atteindre cet objectif le travail est scindé en deux grandes parties :- L'étude physique de la dynamique non linéaire d'un laser VECSEL en régime continu et en présence de dispersion de phase. Nous montrons l'existence d'une dynamique déterministe du champ laser qui donne naissance à un régime multimode longitudinal non stationnaire régulier ou à un régime mono-fréquence stable. Ce résultat permet alors la conception de source de haute cohérence à forte puissance sans élément intracavité sélectif en longueur d'ondes.- Le développement de nouvelles sources monofréquences compact largement accordables bas bruit avec une largeur de raie étroite. Cette partie comporte l’étude physique des composants, depuis l’optimisation du milieu à gain jusqu'à l'émission laser en terme de cohérence spatiale et temporelle, ainsi qu'un travail sur l'environnement du laser (mécanique et thermique optimisée pour la stabilité de la fréquence laser). / The main goal of this thesis is the industrial development of highly coherent tunable laser sources based on III-V technologies in the 0.95-1.1μm and 2-2.5μm spectral ranges.This work is the result of a partnership between the IES and C2N laboratory together with the company INNOPTICS, specialized in the packaging of optoelectronics devices.We take advantage of the Vertical External Cavity Surface Emitting Laser (VECSEL) technology to achieve a combination of coherence - power -tunability -compactness, overcoming the performances of today's commercial laser technologies. To achieve this goal the work is divided into two main parts:- The physical study of the non-linear dynamics of a VECSEL laser in continuous wave operation and in the presence of cavity phase dispersion. We show the existence of a deterministic dynamics of the laser field that gives rise to a regular non-stationary longitudinal multimode regime or a stable single-frequency regime. This result then makes it possible to design a source of high coherence with high power without any intracavity wavelength selective element.- The development of new low noise compact single frequency sources with a narrow linewidth. This part involves the physical study of the components, from optimization of the gain medium to the laser emission in terms of spatial and temporal coherence, as well as a work on the environment of the laser (optimization of the thermal mechanical properties of the packaging for the stability of the laser frequency). Vecsel Semiconducteur Monofréquence Dynamique Multimode Intégration Vecsel Semiconductor Single frequency Dynamics Multimode Packaging
18	Convergence des techniques de transmission fibre optique et radio MIMO haut débit / Convergence of high data rate transmission techniques over optical fiber and MIMO radio signals Dobremez, Vincent 25 March 2013 (has links) Pour répondre à l'accroissement de la demande en bande passante, de nouveaux réseaux optiques sont mis en place. Ce déploiement s'accompagne de la mise en service de nouveaux standards de fibres optiques, ce qui pose la question de l'utilisation et de la mise en valeur du réseau fibré existant, et notamment des fibres multimodes déjà installées, rapidement vouées à l'obsolescence. On cherche ainsi à mettre à profit la diversité spatiale que procure la nature multimode des ces fibres, via une analogie avec le domaine radiofréquences. L'utilisation des techniques MIMO, largement répandue dans le contexte de transmission radiofréquences, peut constituer une solution à cette amélioration nécessaire de la capacité de transmission de ces fibres optiques multimodes. Ce travail de thèse s'intéresse donc à l'étude et à la transposition des techniques MIMO dans le cadre de transmissions sur fibre optique et aux enjeux et défis associés. La transmission de signaux OFDM via un schéma de transmission SIMO optique permet de démontrer l'intérêt de la transposition des techniques MIMO à l'optique et la faisabilité de tels dispositifs. / New technological uses such as cloud computing, smartphones, take part to the huge current increase of data consumption. This growth goes along with the development of optical networks, which will replace the copper networks with an higher and higher transmission capacity, thanks to new standards of fibers. This situation raises the question of the obsolete optical fibers reuse. It's shown in this thesis that MIMO techniques can be applied to multimode optical fibers in order to benefit from their inherent spatial diversity. This thesis focuses on the optical SIMO scheme, showing an improvement of the multimode fiber capacity for OFDM signals transmissions. We prove hereby the interest of such a technique, combining radio MIMO aspects and optical transmissions principles. SIMO optique OFDM Capacité Fibre multimode Optical SIMO OFDM Capacity Multimode fiber
19	Propagation et contrôle adaptatif de la lumière amplifiée dans une fibre multimode / Adaptive control of amplified light through a multimode fiber Florentin, Raphaël 06 November 2017 (has links) Les fibres multimodales ont longtemps été délaissées en raison des distorsions temporelles et spatiales subies par la lumière au cours de sa propagation dans la fibre. Ces distorsions sont les conséquences des couplages modaux et de la disparité des temps de propagation des modes de fibre. Bien que complexe, la propagation dans un guide multimodal reste déterministe et peut être maitrisée par une structuration cohérente de l’excitation. La manipulation d’ondes en présence de gain dans la fibre optique, au coeur de ces travaux de thèse, constitue une problématique plus complexe encore puisque la carte de saturation des modes hétérogène rend la propagation non linéaire. Deux types d’amplificateurs multimodaux à fibre dopée ytterbium ont été étudiés : une fibre à saut d’indice à large coeur et une fibre à coeurs multiples couplés. Le contrôle spatial du faisceau transmis est obtenu en structurant le front d’onde incident à l’aide d’un miroir déformable couplé à un algorithme itératif. En régime d’excitation continue, cette technique de contrôle adaptatif, robuste et rapide a permis de focaliser le rayonnement en extrémité de fibre sur des spots uniphases, malgré les couplages modaux, l’hétérogénéité de gain modal et la saturation du gain. Il a aussi été démontré que la mise en forme du front d’onde incident ne réduisait pas le gain d’amplification. Une puissance de 2,8 W a été confinée dans un unique spot avec un gain de12 dB. Des structures intensimétriques plus complexes de type « multispots » ont également été obtenues. Enfin, la focalisation à travers la fibre amplificatrice a été réalisée avec succès en régime femtoseconde pour lequel la propagation s’accompagne de couplages spatio-temporels. Une première démonstration de principe a permis d’obtenir 120 kW de puissance crête avec un gain de 14 dB dans une impulsion uniquement limitée par la dispersion chromatique (350 fs), le profilage spatial permettant aussi de contrôler l’impulsion amplifiée par la sélection de modes dont les vitesses de groupe sont proches. / For a long time, multimode fibers were sparsely investigated because of the spatial and temporal distortions occurring during propagation across the fiber. Those distortions are consequences of mode coupling and modal propagation constant disparity. Although the propagation in a multimode waveguide is complex, it is deterministic and can be controlled by spatial shaping of the excitation. Considering an amplifying medium, the problem, at the heart of this thesis, is more complex because of nonlinear propagation due to heterogeneous gain saturation. Two kinds of Ytterbium doped multimode fiber amplifiers were tested: a step index fiber with a large core diameter and a coupled core multicore fiber. Spatial control of the output of the amplifier was achieved using a deformable mirror in combination with an iterative algorithm. In the case of a continuous wave excitation of the amplifier, we demonstrated that it was possible to confine light in a single-phase spot with a 2,8 W average power and 12 dB gain. We also demonstrated that the spatial shaping of the output has no effect on the amplifier gain. Furthermore, we obtained more complex output fields of multi-spot structure. Finally, focalization through the amplifying fiber was successfully demonstrated in femtosecond regime for which spatio-temporal couplings occur. A 120 kW peak power spot with a gain of 14 dB in a 350 fs pulse was obtained in a first experimental proof of concept. The spatial shaping allows also to control the duration of the amplified pulse by selection of modes with close group velocities. Amplificateur multimode fibré Contrôle adaptatif Multimode fiber amplifier Adaptive control 621.36
20	Interference of Intensity Noise in a Multimode Nd:YAG Laser Hill, Timothy James January 2003 (has links) We investigate the behaviour of the intensity noise in a multi-longitudinal mode Nd:YAG laser. This type of laser is a nonlinear system which exhibits complicated dynamics within the intensity noise. For example, antiphase dynamics is where there is cancellation of one or more collective modes of oscillation, which are distinct from the longitudinal modes, in the total output. Commonly lasers are studied experimentally to discriminate between models used to describe them. They are convenient since many external influences can be controlled and the oscillations of interest are low frequency (in the kHz regime) making their direct measurement relatively simple. In our laser, the collective modes of oscillation are excited by broadband ambient noise. Because the phase of the excitation is unknown, we develop the cross spectral technique to measure the antiphase dynamics directly and form a picture of the intensity noise interference for two to five mode operation. For three mode operation, we measure the contributions of the longitudinal modes to the collective modes. We also calculate power spectral densities of the individual longitudinal modes and the total intensity. We test relationships between these quantities, at the collective mode frequencies, which are derived from modal rate equation theory. For two mode operation, the theoretical relations are satisfied. For three mode operation, the relations are satisfied when the picture of interferences is taken into account. The cross spectral technique is therefore shown to be a sensitive test of the model developed by Pieroux and Mandel [T. Hill et al., Phys. Rev. A 66, 063803 (2002)]. The behaviour of the multimode laser operating near the threshold of a longitudinal mode is measured. Transitions in the cross spectrum are noted in some pairs of longitudinal modes, for an arbitrary but small pump rate above threshold of a longitudinal mode. It has been shown that longitudinal modes with a high threshold pump power may become more intense than those with a lower threshold [K. Otsuka et al., Opt. Lett. 23, 201 (1998), L. Stamatescu and M.W. Hamilton, (unpublished) (1999), N.B. Abraham et al., Phys. Rev. A 62, 013810 (2000), P.A. Khandokhin, E.A. Ovchinnikov and E.Yu. Shirokov, Phys. Rev. A 61, 053807 (2000)]. The AC noise component of the first two longitudinal modes to reach threshold, is found to exhibit similar properties to their intensity. The implications of the results of this thesis, on models used to describe the behaviour of solid state lasers, are also discussed. / Thesis (Ph.D.)--Physics, 2003.

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