Stimulated Brillouin scattering for distributed temperature sensing

Dhliwayo, Jabulani

January 1997

No description available.

536.7

Simulated brillouin scattering in a microdroplet.

January 1993

by Pang Kam Moon. / Title also in Chinese characters. / Thesis (M.Phil.)--Chinese University of Hong Kong, 1993. / Includes bibliographical references (leaves 120-121). / LIST OF FIGURES --- p.iv / ACKNOWLEDGEMENTS --- p.x / ABSTRACT --- p.xi / Chapter CHAPTER 1 --- INTRODUCTION --- p.1 / Chapter CHAPTER 2 --- SPONTANEOUS BRILLOUIN SCATTERING IN MICRODROPLETS --- p.10 / Chapter 2.1 --- Outline of the theory of Spontaneous Brillouin Scattering / Chapter 2.2 --- Low-Q Spontaneous Brillouin Scattering / Chapter 2.3 --- High-Q Spontaneous Brillouin Scattering / Chapter CHAPTER 3 --- FORMULATION AND RESULTS OF STEADY STATE SBS --- p.16 / Chapter 3.1 --- SBS in Extended and Spherical Media / Chapter 3.2 --- Formulation / Chapter 3.3 --- Monochromatic Plane Wave with Definite Helicity / Chapter 3.4 --- Lorentzian Approximation to J(z) / Chapter 3.5 --- Edge Illumination / Chapter CHAPTER 4 --- TRANSIENT EFFECTS ON INTERNAL INTENSITY --- p.56 / Chapter 4.1 --- Enhancements for Internal Intensity / Chapter 4.2 --- Formulation for Transient Incident Pulse Gaussian Profile / Chapter 4.3 --- Absorption Effects / Chapter CHAPTER 5 --- TRANSIENT STIMULATED BRILLOUIN SCATTERING --- p.74 / Chapter 5.1 --- Slowly Varying Phase and Amplitude Approximation / Chapter 5.2 --- Long Temporal Gaussian Profile Incident Light / Chapter 5.3 --- Short Temporal Gaussian Profile Incident Light / Chapter CHAPTER 6 --- SBS IN MICRODROPLETS WITH ABSORPTION --- p.82 / Chapter 6.1 --- Steady State SBS with Absorption / Chapter 6.2 --- Long Temporal Gaussian Profile Incident Light / Chapter 6.3 --- Short Temporal Gaussian Profile Incident Light / Chapter 6.4 --- Singly Resonant SBS / Chapter CHAPTER 7 --- CONCLUSION --- p.98 / APPENDIX A --- p.100 / APPENDIX B --- p.102 / APPENDIX C --- p.106 / APPENDIX D --- p.108 / REFERENCES --- p.120

Brillouin scattering

Scattering (Physics)

Light--Scattering

Spectroscopic studies of anomalous hydrodynamic behaviour in complex fluids

Edington, David W. N.

January 2002

Brillouin spectroscopy probes the thermally generated pressure fluctuations (sound waves) which propagate in a material. The resulting information on sound velocity and absorption provides a fast and efficient method of monitoring high frequency (GHz) dynamics in the system being studied. In certain cases, structural information may also be inferred from changes in the Brillouin spectrum as a function of temperature, pressure or composition (in the case of multi-component systems). The aim of the work presented in this thesis was to integrate Brillouin spectroscopy into current soft condensed matter research projects at Edinburgh, namely (i) hydration in methanol-water mixtures and (ii) the behaviour of hard-sphere colloidal dispersions. A Brillouin spectrometer based on a Fabry-Perot interferometer was developed and tested, resulting in a high-resolution instrument operating at variable scattering vector (exchanged momentum), temperature and pressure. The technical aspects of this work were carried out in collaboration with a colleague. Data analysis routines were designed and implemented, enabling calibrated Brillouin spectra to be produced automatically from raw experimental data. Excellent agreement with results on several materials studied in the literature confirmed the accuracy and sensitivity of the spectrometer. The molecular details of hydration in methanol-water mixtures are of great interest due to the prototypical amphiphilic nature of the methanol molecule. The effect of deep cooling on the Brillouin spectrum across a wide range of methanol concentrations was studied in detail, resulting in the first observation of an anomalous increase in sound velocity and maximum in sound absorption at intermediate compositions. A similar effect was then found at higher temperature in aqueous tertiary butanol, and was identified in a brief survey of several other aqueous solutions. High pressure Brillouin spectra indicate that this anomalous behaviour may also be present in pure water. It is suggested that these novel effects may be due to the presence of a relatively unperturbed water structure in the aqueous solutions studied, even at quite high solute concentration. Preliminary results from a neutron diffraction experiment performed on a 40% by mass methanol-water mixture were consistent with this hypothesis. Brillouin spectroscopy was also used to study the propagation of high frequency sound in monodisperse colloidal suspensions of sub-micron hard spheres. A second longitudinal sound mode was observed for scattering vectors of magnitude greater than pi/d where d is the diameter of the spheres. These results are the first reproduction and extension of the pioneering work in the field, which identified the additional mode with a surface acoustic excitation, propagating between adjacent spheres via an evanescent wave in the solvent. The new results show that the second mode is extinguished at a particular scattering vector - an effect not reported previously. It is suggested that this extinction is due to the minimum in the form factor for elastic scattering from a single sphere.

543.5

Brillouin light scattering from carbon nanotube arrays /

Polomska, Anna Maria,

January 2005

Thesis (M.Sc.)--Memorial University of Newfoundland, 2005. / Restricted until October 2006. Bibliography: leaves 88-94.

Multiwavelength Brillouin semiconductor fiber lasers

Hayder, Alaa.

January 2008

The past decade has seen an increased interest in multiwavelength optical sources. Various methods and technologies exist for developing multiwavelength lasers with varying features and characteristics. A particular category that has gained much interest, are multiwavelength fiber lasers that combine nonlinear gain from stimulated Brillouin scattering with linear gain from erbium doped fibers. / This thesis demonstrates experimentally a Brillouin semiconductor multiwavelength fiber laser that utilizes semiconductor optical amplifiers as the linear gain medium. This novel technique allows for multiwavelength Brillouin fiber lasers to operate in any wavelength band for which SOAs are available. We begin by demonstrating a ring cavity configuration with a single wavelength output in the C/L bands. This configuration is enhanced for multiwavelength generation by the addition of a feedback path. The setup is then implemented in the O-band to demonste that the Brillouin fiber laser can be made to operate at any wavelength. Finally, several linear cavity configurations are explored and shown to improve the performance of the multiwavelength output in the O- and C/L- bands.

Fiber optics.

Semiconductor lasers.

Brillouin scattering.

Brillouin spectroscopy of gelatin gel and the use of a CCD area detector.

Zhao, Peizhen. Walton, D.

Unknown Date

Thesis (Ph.D.)--McMaster University (Canada), 1995. / Source: Dissertation Abstracts International, Volume: 56-12, Section: B, page: 6844. Adviser: D. Walton.

Brillouin scattering experiments on single crystals of cyclohexane /

Ahmad, Syed Faiz.

January 1977

Thesis (M.Sc.) -- Memorial University of Newfoundland. / Typescript. Bibliography : leaves 73-76. Also available online.

An investigation of the occurrence of defect structures in some electron compounds

Maciolek, Ralph Bartholomew,

January 1966

Thesis (Ph. D.)--University of Wisconsin--Madison, 1966. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

Laser Brillouin à fibre microstructurée en verre de chaleogénure / Brillouin laser made of microstructured chalcogenide fiber

Hey Tow, Kenny

14 February 2013

Souvent considéré néfaste dans le domaine de la télécommunication car il limite la puissance d'un système de transmission optique, l'effet Brillouin peut être utilisé pour la réalisation de lasers. Un laser à fibre Brillouin peut potentiellement être très cohérent et très peu bruité ; ce qui incite son utilisation dans plusieurs domaines incluant la défense, la métrologie et les télécommunications. L'objectif de cette thèse, qui s'insert dans le cadre du projet ATOS (Antenne acoustique en technologie Tout Optique pour la Surveillance), est d'obtenir un laser Brillouin à la fois compact et avec un seuil laser relativement bas. Pour respecter ces deux conditions, il est nécessaire de disposer d'une fibre avec un très fort coefficient de gain Brillouin gB et ayant une très petite aire effective de manière à concentrer la puissance optique dans le cœur de la fibre. Nous avons ainsi choisi d'utiliser une fibre faite à partir de verres en chalcogénure, qui ont un gB de deux ordres de grandeurs supérieures au gB d'une fibre monomode silice classique avec une microstructure dans le coeur. Ces travaux de recherche contribuent donc, d'une part, à démontrer qu'il est expérimentalement possible de réaliser des lasers Brillouin compacts, bas seuils et exhibant des caractéristiques remarquables en termes de bruit et de cohérence avec des fibres microstructurées en verre de chalcogénure et, d'autre part, à étudier la potentialité de ces cavités lasers dans le cadre du projet ATOS tout en proposant d'autres applications possibles pour la métrologie, l'instrumentation et les télécommunications. / Although stimulated Brillouin scattering (SBS) in optical fiber is a penalizing nonlinear effect in optical communication systems, it is possible to make good use of SBS in other applications such as in Brillouin fiber lasers (BFLs). A BFL can potentially have a very narrow linewidth and very low relative intensity noise (RIN) and frequency noise, making them excellent coherent laser sources that can be used in telecommunications, defense and metrology. The goal of this research work, which is in the framework of ATOS (Antenne acoustique en technologie Tout Optique pour la Surveillance, All Optical Acoustic Antenna for Security) project, is to obtain a compact Brillouin laser with a very low threshold power. In order to match these two conditions, it is essential to use a fiber with a very high Brillouin gain coefficient gB and with a small effective mode area to ensure a stronger light confinement in the fiber core. For this research work, we have combined both alternatives by using a microstructured optical fiber made of chalcogenide glass. These materials are known to have very high gB, which can be two orders of magnitudes higher than in the case of a standard silica fiber. In this work, we have, first of all, experimentally demonstrated that it is possible to obtain a compact, low threshold and low noise Brillouin laser using microstructured chalcogenide fibers. Then, we have studied the feasibility of using this laser cavity in the framework of the ATOS project while proposing alternative applications for metrology and telecommunications.

Diffusion Brillouin

Laser Brillouin

Bruit d’un laser

Cohérence

Verre de chalcogénure

Fibre microstructurée

Brillouin scattering

Brillouin laser

Laser noise

Coherence

Chalcogenide glass

Microstructured fiber

Lasers à fibre Brillouin multi-stokes : cohérence et caractérisation en bruit / Multi-Stokes Brillouin fiber lasers : coherence and noise characterization

Fresnel, Schadrac

01 September 2017

La diffusion Brillouin est la diffusion inélastique de la lumière par les ondes acoustiques d'un milieu. Dans une fibre optique, la diffusion Brillouin stimulée (DBS) se manifeste, à partir d'une certaine intensité lumineuse incidente (Pompe), par la génération d'une onde Stokes rétrodiffusée dont la fréquence est décalée de celle de la Pompe d'une valeur directement proportionnelle à la vitesse de propagation des ondes acoustiques. Le décalage Brillouin présente une grande sensibilité à tous les effets qui peuvent modifier la vitesse de l'onde acoustique. Cette propriété permet d'étudier la composition des fibres et confère à la DBS la potentialité pour la réalisation de capteurs à fibres optiques. Le processus de DBS s'accompagne aussi d'un gain pour l'onde Stokes rétrodiffusée, puisque presque toute la puissance de l'onde Pompe y est transférée. Il peut donc être utilisé pour la réalisation d'amplificateurs et de lasers à fibres optiques. Dans le cadre de ce travail de thèse, nous avons étudié expérimentalement les propriétés statiques et dynamiques du laser à fibre Brillouin (LFB). Dépendamment du taux d'amortissement de l'onde acoustique et du taux de pertes de la cavité, le LFB peut être très cohérent et très peu bruité, favorisant ainsi son utilisation dans de multiples domaines comme la défense, la métrologie et les télécommunications. Lorsque la Pompe ne fait qu'un tour dans la cavité Brillouin, le LFB étudié présente un bruit de fréquence 10 000 fois plus faible que celui du laser de Pompe tout en gardant un bruit d'intensité similaire. Lorsque la Pompe est résonante, il est possible d'obtenir un LFB à multiples ondes Stokes en cascadant l'effet non-linéaire Brillouin dans la fibre optique. Limités par nos bancs de mesures, nous avons mesuré un bruit de fréquence 1 000 fois plus faible que celui de la Pompe et un bruit d'intensité plus de 100 fois plus faible. / Brillouin scattering is the inelastic scattering of light by the acoustic waves of a medium. In an optical fiber, stimulated Brillouin scattering occurs, from a certain incident light intensity (pump), for generating a backscattered "Stokes" wave, whose frequency is shifted from that of the pump by a value directly proportional to the acoustic wave propagation velocity in the fiber. The Brillouin shift has a high sensitivity to all effects that can change the speed of the acoustic wave. This property makes it possible to study the composition of the fibers and gives to the SBS the potential for the production of optical fiber sensors. The SBS process is also accompanied by a gain for the backscattered Stokes wave since almost all the power of the Pump wave is transferred there. It can, therefore, be used for the production of optical fiber amplifiers and lasers. As part of this thesis work, we experimentally studied static and dynamic properties of the Brillouin fiber lasers (BFLs). Depending on the damping rate of the acoustic wave and the loss rate of the cavity, the BFL can be very coherent and less noisy, thus promoting its use in multiple fields such as defense, metrology, and telecommunications. When the Pump makes only one turn in the Brillouin cavity, the studied BFL has a frequency noise 10,000 times lower than that of the Pump laser while keeping a similar intensity noise. When the Pump is resonant, it is possible to obtain a BFL with multiple Stokes waves by cascading the Brillouin non-linear effect in the optical fiber. Restricted by our measurement benches, we measured a frequency noise 1000 times lower than that of the Pump and an intensity noise more than 100 times lower.

Diffusion Brillouin Stimulée

Laser à fibre Brillouin Multi-Stokes

Cohérence

Bruit de fréquence

Bruit d'intensité

Stimulated Brillouin Scattering

Multi-Stokes Brillouin fiber laser

Coherence

Frequency Noise

Intensity Noise