Projeto e construção de um amplificador paramétrico óptico operando no infravermelho médio / Design and construction of an optical parametric amplifier operating in the mid-infrared

Marcela de Freitas Mendonça

24 May 2010

Um Amplificador Paramétrico Óptico (optical parametric amplifier - OPA) é uma fonte de luz coerente, de alta qualidade e sintonizável, baseada em processos ópticos não-lineares de segunda ordem. Alguns modelos possuem largura de banda estreita e um amplo intervalo de sintonia, podendo alcançar regiões que vão desde o ultravioleta até o infravermelho médio. A nossa motivação para construir este amplificador paramétrico óptico é sua utilização em experimentos de espectroscopia vibracional de superfícies através do processo óptico não-linear de segunda ordem, geração de soma de frequências (sum-frequency generation - SFG), que é uma técnica que exige fontes sintonizáveis no infravermelho médio e com altas intensidades de pico e largura de banda estreita. O objetivo desse trabalho foi projetar, montar e testar um amplificador paramétrico óptico capaz de produzir pulsos sintonizáveis de alta energia no infravermelho médio (λ ~ 2,5 a 10 μm) a partir de um laser de bombeio que fornece pulsos de 25 ps, com alta energia em λ = 1064 nm. Para obter-se uma geração de infravermelho bastante eficiente, foi proposto um projeto inovador para amplificadores paramétricos de picossegundos, utilizando-se a geração de supercontínuo de luz branca como feixe sinal do estágio de amplificação paramétrica. O pulso de bombeio (λ = 1064 nm) é dividido em duas partes: a primeira, de menor energia, é utilizada para gerar um pulso de alta largura espectral no infravermelho próximo (supercontínuo de luz branca de picossegundos). Uma fração espectral desse pulso é selecionada através de um monocromador e utilizada como semente do estágio de amplificação paramétrica. O cristal amplificador paramétrico (sulfeto de prata e gálio, AgGaS2) é então bombeado pelo restante do pulso de bombeio e simultaneamente amplifica a semente sintonizável no infravermelho próximo e gera um novo pulso de frequência complementar no infravermelho médio. Foram testados vários meios para geração de supercontínuo, mas os melhores resultados foram obtidos em uma cubeta de 10 cm de comprimento com uma mistura de água e água deuterada (3 % em volume de H2O em D2O) e em uma fibra fotônica não-linear com 2 m de comprimento. Usando o supercontínuo como feixe semente, observou-se amplificação paramétrica no caso do feixe gerado na fibra fotônica com um ganho de 260 vezes, mas não com o feixe gerado na mistura de água/água deuterada, presumivelmente pela maior instabilidade desse supercontínuo. / An Optical Parametric Amplifier (OPA) is a tunable light source of high quality, coherent radiation, based on second-order nonlinear optical processes. Some models have a narrow spectral bandwidth and a tuning range from the ultraviolet to the mid-infrared. The motivation for building this optical parametric amplifier is its use in vibrational spectroscopy of surfaces by a second-order nonlinear optical process, sum-frequency generation (SFG), which is a technique that requires tunable sources in the mid-infrared with narrow bandwidth and high peak intensities. The purpose of this work is to design, implement and test an OPA to generate tunable high energy pulses tuneable in the mid-infrared (λ ~ 2.5 to 10 μm) from a pumping laser that provides 25 ps pulses with high energy at λ = 1064 nm. For an efficient mid-infrared generation, we propose an innovative design for picosecond parametric amplifiers, using the near infrared portion of a white-light supercontinuum pulse as the seed beam for the parametric amplifier. The pump pulse (λ = 1064 nm) is divided into two parts: the first one, with lower energy, generates a high spectral width pulse in the near infrared (white-light supercontinuum picosecond pulse). A spectral fraction of this pulse is selected through a monochromator and is used as seed for the parametric amplification stage. The second part of the laser beam pumps the parametric amplifier crystal (silver gallium sulfide, AgGaS2) which simultaneously amplifies the tunable seed beam in the near infrared and generates a new pulse with complementary frequency in the mid-infrared. Several media were tested for supercontinuum generation, but the best results were obtained with a 10 cm long cuvette with a mixture of water and deuterated water (3 % volume of H2O in D2O) and with a 2 m long nonlinear photonic crystal fiber. Using the supercontinuum as a seed beam, we have obtained parametric amplification of the seed generated by the photonic fiber with a gain of 260 times, but not of the beam generated by the water mixture, presumably because of its significantly higher instability.

Amplificação paramétrica

Fibra óptica fotônica

Geração de luz no infravermelho médio

Óptica não-linear

Pulsos ultracurtos

Supercontínuo de luz branca

Generation of mid-infrared radiation

Nonlinear optics

Parametric amplification

Photonic crystal fiber

Ultrashort pulses

White-light supercontinuum

Avaliação experimental de luminárias empregando LEDs orientadas à iluminação pública

Nogueira, Fernando José

28 February 2013

Submitted by Renata Lopes (renatasil82@gmail.com) on 2016-03-03T11:35:25Z No. of bitstreams: 1 fernandojosenogueira.pdf: 4981583 bytes, checksum: 8b3c5698410b92cb533a1907a012d6a6 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2016-04-24T01:41:50Z (GMT) No. of bitstreams: 1 fernandojosenogueira.pdf: 4981583 bytes, checksum: 8b3c5698410b92cb533a1907a012d6a6 (MD5) / Made available in DSpace on 2016-04-24T01:41:50Z (GMT). No. of bitstreams: 1 fernandojosenogueira.pdf: 4981583 bytes, checksum: 8b3c5698410b92cb533a1907a012d6a6 (MD5) Previous issue date: 2013-02-28 / Este trabalho tem como objeto principal a avaliação experimental de diodos emissores de luz (ou LEDs, do inglês Light Emitting Diodes) quando empregados em luminárias comerciais destinadas aos sistemas de iluminação pública. São apresentados os aspectos gerais da iluminação pública no Brasil, os principais componentes empregados e uma discussão sobre a adoção da tecnologia LED na iluminação de exteriores. Também são abordados os conceitos básicos de fotometria clássica e da fotometria adaptada para baixos níveis de luminância, que leva em consideração a resposta dinâmica visual do olho humano. Para efeito comparativo, o trabalho também inclui uma revisão das principais fontes de luz brancas orientadas à iluminação pública, e. g. lâmpada de vapor metálico, lâmpada de vapor de mercúrio e, mais recentemente, os LEDs. Tal estudo ampara-se em ensaios de laboratório e em campo tomando como base a lâmpada de vapor de sódio em alta pressão, a mais utilizada atualmente no segmento de iluminação de vias públicas. Algumas normativas referentes à aplicação de LEDs em iluminação pública são discutidas e, a partir das recomendações existentes nas normas NBR 16026 e NBR IEC 61347-2-13, são realizados ensaios de pré-conformidade em amostras comerciais de luminárias LED orientadas à iluminação pública do mercado nacional. Além dos ensaios de pré-conformidade, são realizados ensaios de funcionamento das luminárias LED quando expostas a condições críticas de temperatura com o objetivo de se avaliar as mudanças elétricas e fotométricas que ocorrem nestas condições. É apresentada uma metodologia de projeto luminotécnico para instalação de luminárias LED em vias públicas baseando-se na norma de iluminação pública NBR 5101 (revisão 2012), e o acompanhamento do projeto piloto de iluminação pública empregando luminárias LED implantado no anel viário da faculdade de engenharia da Universidade Federal de Juiz de Fora. Durante nove meses foram coletados dados de características elétricas e fotométricas a fim de se averiguar o desempenho destas luminárias em campo. Por fim, foi feito um estudo comparativo entre o antigo sistema de iluminação com lâmpadas de vapor de sódio e o atual, empregando luminárias LED. / The purpose of this research is the experimental evaluation of light emitting diodes (or LEDs) when used in commercial luminaires for street lighting systems. The general aspects of Brazilian public lighting, the main components used and a discussion about the adoption of the LED technology in outdoor lighting are presented. Also, the basic concepts of classical photometry and photometry’s adaptations for low luminance levels are addressed. It takes into consideration the dynamic response of the human eye. For comparative purposes, this research also includes a review of the main white light sources used on public lighting, e.g. Metal Halide Lamp, High Pressure Mercury Vapour Lamp and, recently, the LEDs. Such research is supported by laboratory and on-site studies based on High Pressure Sodium Vapour Lamp; currently, the most used on public lighting system. Some standards regarding LEDs usage on public lighting are discussed and, based on the existing recommendations, regulated by the Brazilian standards NBR 16026 and NBR IEC 61347-2-13, pre-certification studies of commercial LED luminaires samples oriented to public lighting on the home market are performed. Other than the pre-certification studies, additional studies of LED luminaires functioning when exposed to critical conditions of temperature with the intention to evaluate the electric and photometric changes that occur in this circumstances are performed. It is introduced a luminotechnical project methodology for LED luminaires installation on public roads based on the Brazilian standards of public lighting NBR 5101 (reviewed in 2012) and the accompanying of the pilot project of public lighting using LED luminaires implanted on the ring road of the School of Engineering of the Juiz de Fora Federal University. During nine months, data of electric and photometric features were collected in order to investigate the performance of the luminaires on-site. Finally, a comparative study was done between the previous lighting system with High Pressure Sodium Vapour Lamp and the current, using LED luminaires.

CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA

Iluminação pública

LEDs

Luminárias LED

Normas

Fontes de luz branca

Projeto piloto de iluminação à LEDs

LEDs

LED luminaires

Pilot project using LED luminaires

Standarts

Street Lighting

White light sources

Caractérisation spectrale locale à l'aide de la microscopie interférométrique : simulations et mesures / Local spectral characterization using coherence scanning interferometry : simulations and measurements

Claveau, Rémy

08 December 2017

La microscopie interférométrique est une méthode de mesure qui repose sur l’acquisition et le traitement du signal issu de l’interaction de deux ondes, dites ondes « objet » et de « référence ». Ces ondes proviennent des réflexions de la lumière sur un miroir de référence et sur l’échantillon étudié. Bien qu’étant généralement utilisées pour les analyses topographiques ou tomographiques d’un échantillon, les données interférométriques peuvent être exploitées pour réaliser des caractérisations spectrales locales résolues dans les trois directions de l’espace. Dans ce projet, nous avons étudié les performances de cette technique ainsi que ses limitations lorsque l’échantillon se complexifie (dégradation du signal d’interférences). L’analyse a été appliquée à des matériaux réfléchissants pour des mesures en surface puis à des couches transparentes et diffusantes pour aller sonder le milieu en profondeur et extraire la réponse spectrale individuelle de structures localisées dans ce milieu. / White light interference microscopy is a measurement method based on the acquisition and processing of the signal coming from the interaction between two wave fronts, known as the “object” and “reference” wave-fronts. These waves come from the reflection of the light on a reference mirror and the sample studied. Usually used for topographic or tomographic analysis of a sample, the interferometric data can be exploited for spectroscopic purposes. The resulting spectral characterizations are spatially resolved in the three directions of space. In this project, we have studied the performance of this technique, as well as the associated limitations when the sample becomes more complex (degradation of the interferometric signal). The analysis has been first applied to reflective materials for surface measurements and subsequently to transparent and scattering layers for probing within the depth of the medium and then extracting the individual spectral response of the buried structures.

Microscopie interférométrique

Interférométrie en lumière blanche

Spectroscopie locale

Simulations et modélisations

Traitement du signal et des images

Propriétés optiques et morphologiques

Interferometric microscopy

Local spectroscopy

Simulations and modeling

Signal and image processing

White light interference microscopy

Reflectance and backscattering spectrum

Optical and morphological properties

621.361

Embedding of QDs into Ionic Crystals:: Methods, Characterization and Applications

Adam, Marcus

04 December 2015

Colloidal semiconductor quantum dots (QDs) have gained substantial interest as adjustable, bright and spectrally tunable fluorophores in the past decades. Besides their in-depth analyses in the scientific community, first industrial applications as color conversion and color enrichment materials were implemented. However, stability and processability are essential for their successful use in these and further applications. Methods to embed QDs into oxides or polymers can only partially solve this challenge. Recently, our group introduced the embedding of QDs into ionic salts, which holds several advantages in comparison to polymer or oxide-based counterparts. Both gas permeability and environmental-related degradation processes are negligible, making these composites an almost perfect choice of material. To evaluate this new class of QD-salt mixed crystals, a thorough understanding of the formation procedure and the final composites is needed. The present work is focused on embedding both aqueous-based and oil-based metal-chalcogenide QDs into several ionic salts and the investigations of their optical and chemical properties upon incorporation into the mixed crystals. QDs with well-known, reproducible and high-quality synthetic protocols are chosen as emissive species. CdTe QDs were incorporated into NaCl as host matrix by using the straightforward "classical" method. The resulting mixed crystals of various shapes and beautiful colors preserve the strong luminescence of the incorporated QDs. Besides NaCl, also borax and other salts are used as host matrices. Mercaptopropionic acid stabilized CdTe QDs can easily be co-crystallized with NaCl, while thioglycolic acid as stabilizing agent results in only weakly emitting powder-like mixed crystals. This challenge was overcome by adjusting the pH, the amount of free stabilizer and the type of salt used, demonstrating the reproducible incorporation of highest-quality CdTe QDs capped with thioglycolic acid into NaCl and KCl salt crystals. A disadvantage of the "classical" mixed crystallization procedure was its long duration which prevents a straightforward transfer of the protocol to less stable QD colloids, e.g., initially oil-based, ligand exchanged QDs. To address this challenge, the "Liquid-liquid-diffusion-assisted-crystallization" (LLDC) method is introduced. By applying the LLDC, a substantially accelerated ionic crystallization of the QDs is shown, reducing the crystallization time needed by one order of magnitude. This fast process opens the field of incorporating ligand-exchanged Cd-free QDs into NaCl matrices. To overcome the need for a ligand exchange, the LLDC can also be extended towards a two-step approach. In this modified version, the seed-mediated LLDC provides for the first time the ability to incorporate oil-based QDs directly into ionic matrices without a prior phase transfer. The ionic salts appear to be very tight matrices, ensuring the protection of the QDs from the environment. As one of the main results, these matrices provide extraordinary high photo- and chemical stability. It is further demonstrated with absolute measurements of photoluminescence quantum yields (PL-QYs), that the PL-QYs of aqueous CdTe QDs can be considerably increased upon incorporation into a salt matrix by applying the "classical" crystallization procedure. The achievable PL enhancement factors depend strongly on the PL-QYs of the parent QDs and can be described by the change of the dielectric surrounding as well as the passivation of the QD surface. Studies on CdSe/ZnS in NaCl and CdTe in borax showed a crystal-induced PL-QY increase below the values expected for the respective change of the refractive index, supporting the derived hypothesis of surface defect curing by a CdClx formation as one main factor for PL-QY enhancement. The mixed crystals developed in this work show a high suitability as color conversion materials regarding both their stability and spectral tunability. First proof-of-concept devices provide promising results. However, a combination of the highest figures of merit at the same time is intended. This ambitious goal is reached by implementing a model-experimental feedback approach which ensures the desired high optical performance of the used emitters throughout all intermediate steps. Based on the approach, a white LED combining an incandescent-like warm white with an exceptional high color rendering index and a luminous efficacy of radiation is prepared. It is the first time that a combination of this highly related figures of merit could be reached using QD-based color converters. Furthermore, the idea of embedding QDs into ionic matrices gained considerable interest in the scientific community, resulting in various publications of other research groups based on the results presented here. In summary, the present work provides a profound understanding how this new class of QD-salt mixed crystal composites can be efficiently prepared. Applying the different crystallization methods and by changing the matrix material, mixed crystals emitting from blue to the near infrared region of the electromagnetic spectrum can be fabricated using both Cd-containing and Cd-free QDs. The resulting composites show extraordinary optical properties, combining the QDs spectral tunability with the rigid and tight ionic matrix of the salt. Finally, their utilization as a color conversion material resulted in a high-quality white LED that, for the first time, combines an incandescent-like hue with outstanding optical efficacy and color rendering properties. Besides that, the mixed crystals offer huge potential in other high-quality applications which apply photonic and optoelectronic components.

info:eu-repo/classification/ddc/530

ddc:530

The effects of artificial lighting on activity of Namib Desert bats (Mammalia: Chiroptera)

Curtis, Angela Lesley

12 1900

The large-scale use of artificial light throughout the night has occurred in the last 100 years and continues to increase globally. Artificial light impacts many animal and plant taxa. The effects of artificial light on bats is species specific. The Namib Desert in Namibia is still relatively dark but subject to the same drivers of increasing development and urbanization that have increased the spread of artificial light globally. This study investigated the effects of the introduction of ultraviolet, yellow and white artificial light on the activity of bats in a rural environment with minimal development in the Namib Desert. Four sites, 100 m apart, had one light and one bat detector each. The fourth light was a dark control. Each site was sampled four times by each light type. Bat activity was recorded by the bat detectors. Eight bat species were recorded during the experiment. Activity increased for open air and clutter-edge foraging species analysed. Broadband white light caused the highest increases in activity followed by yellow light when compared with the dark control site. Ultraviolet light caused the lowest increases in activity contrary to expectations. / Mengwaga ye 100 ya go feta go bile le koketšego ye kgolo ya tšhomišo ya seetša sa maitirelo bošego ka moka. Setlwaedi se se ata kudu lefaseng ka moka go feta pele, gomme se ama diphoofolo tše ntši le mehuta ya dimela. Leganata la Namib go la Namibia gabotse le sa ntše le swiswetše, eupša le ka fase ga dikgontšhi tša go oketša tlhabollo le toropofatšo tšeo di hlotšego koketšego tšhomišong ya seetša sa maitirelo lefaseng ka bophara. Dikhuetšo tša seetša sa maitirelo go memankgagane di fapana go ya ka mohuta. Nyakišišo ye e nyakišišitše dikhuetšo tša tsebagatšo ya seetša sa maitirelo sa go phadima, serolwane le se sešweu go modiro wa memankgagane ka tikologong ya nagaselegae ya go ba le tlhabollo ye nyane ka Leganateng la Namib. Seetša se setee le tithekethara e tee ya mankgagane di hlomilwe go le lengwe le le lengwe la mafelo a mane, a go arogantšhwa ka 100 m. Seetša sa bone se be se le taolo ya leswiswi. Lefelo le lengwe le le lengwe le dirilwe mohlala makga a mane ka mohuta wo mongwe le wo mongwe wa seetša. Modiro wa mankgagane e rekotilwe ka ditithekethara tša mankgagane. Mehuta ya mankgagane ye seswai e rekotilwe nakong ya eksperimente. Modiro wa mehuta ya sebakabakeng le ya go sela thobekgeng ye e sekasekilwego e oketšegile. Seetša se sešweu sa porotepente se hlotše dikoketšego tša modiro, sa latelwa ke seetša se se serolwane, ge se bapetšwa le lefelo la taolo ya leswiswi. Go fapana le ditetelo, seetša sa go phadima se hlotše dikoketšego tša fasefase modirong. / School of Environmental Sciences / M. Sc. (Nature Conservation)

Artificial light

Light wavelengths

Bats

Namib Desert

Bat activity

Ultraviolet light

Yellow light

White light

Compact fluorescent light bulbs

Undeveloped habitat

599.4096881

Wave theory of light

Etude des propriétés optiques et structurales des matériaux hybrides organiques-inorganiques à base de Plomb : émission de lumière blanche / Optical and structural study of organic-inorganic hybrid materials based on lead halides : white-light emission

Yangui, Aymen

12 July 2016

Les matériaux hybrides organiques inorganiques ont attirés l'attention vue qu'ils présentent des propriétés optiques et optoélectroniques fascinantes comme la forte photoluminescence même à température ambiante. Cet axe de recherche relativement nouveau, sur cette famille de matériaux, offre une variété d’opportunités technologiques. Dans ce contexte, nous nous sommes intéressés par l'étude des propriétés optiques des deux matériaux hybrides organiques inorganiques (C6H11NH3)2[PbI4] et (C6H11NH3)2[PbBr4], et principalement leurs propriétés de luminescence. Les résultats montre que sous excitation dans l'ultraviolet, (C6H11NH3)2[PbBr4] émet de la lumière blanche, même à température ambiante, ce qui présente un grand intérêt de l'utilisation de ces matériaux comme source d'émission de la lumière blanche. L'origine de cette émission a été étudié par différentes techniques comme la photoluminescence résolution en temps. / Inorganic organic hybrid materials have attracted a great attention do to their special structure and important optical such as the high luminescence, even at room temperature. This relatively new research on this family of materials, offers a variety of technological opportunities. In this context, we are interested in the study of optical properties of both inorganic and organic hybrid materials (C6H11NH3)2[PbI4] and (C6H11NH3)2[PbBr4], and mainly their luminescence properties. The results shows that under ultraviolet excitation, (C6H11NH3)2[PbBr4] show a strong white light emission, even at room temperature, which open a great interest in the use of these materials as a source of the white light emission. The origin of this large emission has been studied by different techniques such as the time resolved photoluminescence measurements .

Photoluminescence

Lumière blanche

Absorption optique

Diffraction des rayons-X

Transitions de phase

Organic-Inorganic hybrid materials

Photoluminescence

White-Light

Optical absorption

X-Ray diffraction

Phase transitions

535.2

Topical negative pressure wound therapy enhances the local tissue perfusion – A pilot study

Bota, Olimpiu, Martin, Judy, Hammer, Alexander, Scherpf, Matthieu, Matschke, Klaus, Dragu, Adrian

20 January 2023

Background: Topical negative pressure wound therapy (TNPWT) is a regularly used method in modern wound treatment with a growing and diverse potential for clinical use. So far positive effects on microcirculation have been observed and examined, although precise statements on the underlying mechanism appear unsatisfying. Objective: The aim of our study was to extend the understanding of the effect of TNPWT on tissue perfusion and determine the time frame and the extent to which the tissue perfusion changes due to TNPWT. Material and methods: TNPWT was applied to the anterior thighs of 40 healthy individuals for 30 min, respectively. Before and up to 90 min after the application, measurements of the amount of regional haemoglobin (rHb), capillary venous oxygen saturation (sO2), blood flow (flow) and velocity were conducted with spectrophotometry (combining white light spectrometry and laser Doppler spectroscopy) within two different depths/skin layers. A superficial measuring probe for depths up to 3 mm and a deep measuring probe for up to 7 mm were used. Results: All parameters show significant changes after the intervention compared to baseline measurements. The greater effect was seen superficially. The superficially measured rHb, sO2 and flow showed a significant increase and stayed above the baseline at the end of the protocol. Whereas deeply measured, the rHb initially showed a decrease. The flow and sO2 showed a significant increase up to 60 min after the intervention. Conclusion: The application of TNPWT on healthy tissue shows an increase in capillary-venous oxygen saturation and haemoglobin concentration of at least 90 min after intervention. A possible use in clinical practice for preconditioning to enhance wound healing for high-risk patients to develop wound healing disorder, requires further studies to investigate the actual duration of the effect.

info:eu-repo/classification/ddc/610

ddc:610

Evaluation of Proposed Natural Corrosion Inhibitors for X-52 Carbon Steel in Ethanol Media

Oliveira, Rafael Figueiredo de

January 2015

No description available.

Chemical Engineering

Materials Science

corrosion inhibitors

X52 steel

ethanol

linalyl formate

linalyl acetate

linalyl butyrate

citronellyl acetate

1-pentylallyl acetate

electrochemical impedance spectroscopy

EIS

scanning electron microscopy

SEM

white light interferometry

WLI

Nonlinear propagation of incoherent white light in a photopolymerisable medium: From single self-trapped beams to 2-D and 3-D lattices

Kasala, Kailash

10 1900

<p>Optical beams that travel through a material without undergoing divergence are known as self-trapped beams. Self-trapping occurs when a beam induces a suitable index gradient in the medium that is capable of guiding the original beam. An incoherent light consists of femtosecond scale speckles, due to random phase fluctuations and were not thought to self-trap until recently. In 1997, Mitchell et al., showed that white light can self-trap, provided the medium cannot respond fast enough to form index gradients to these speckles individually. However, detailed studies have been hampered by a lack of suitable materials and strategies for enabling such a response. In 2006, our group showed that a photopolymer is suitable for incoherent self-trapping, since the index change is governed by an inherently slow rate of polymerization (of the order of milliseconds). This has enabled further studies of various phenomena with white light self-trapping.</p> <p>The studies here show (i) the first direct experimental evidence of interactions of two incoherent white light self-trapped beams, as well as fission, fusion and repulsion. Existence of dark self-trapping beams with incoherent white light was also shown, counter intuitively in a positive nonlinear medium. (iii) Lattices were formed with multiple ordered bright as well as dark self-trapping filaments using optochemical self-organization. (iv) Woodpile-like 3D lattices with bright and dark beams were also demonstrated and simulations showed theoretical band gaps. (v) Self-trapping of a co-axial beam of incoherent white light was also shown experimentally and through simulations.</p> / Doctor of Philosophy (PhD)

organosiloxane

photopolymer

optical self-trapping

optochemical self-organization

black and grey incoherent soliton

Atomic, Molecular and Optical Physics

Electromagnetics and photonics

Materials Chemistry

Optics

Polymer and Organic Materials

Polymer Chemistry

Semiconductor and Optical Materials

Atomic, Molecular and Optical Physics

Studies of particle and atom manipulation using free space light beams and photonic crystal fibres

Gherardi, David Mark

January 2009

Light can exert optical forces on matter. In the macroscopic world these forces are minuscule, but on the microscopic or atomic scale, these forces are large enough to trap and manipulate particles. They may even be used to cool atoms to a fraction of a degree above absolute zero. This thesis details a number of experiments concerned with the optical manipulation of atoms and micron-size particles using free space light beams and photonic crystal fibres. Two atom guiding experiments are described. In the first experiment, a spatial light modulator is used to generate higher blue-detuned azimuthal Laguerre-Gaussian LG) beams, which are annular beams with a hollow core. These LG beams are then used to guide laser cooled rubidium-85 atoms within the dark core over a distance of 30 mm. The second atom guiding experiment involves attempting to guide laser cooled and thermal rubidium atoms through a hollow-core photonic crystal fibre using red-detuned light. Hollow-core photonic crystal fibres are fibres that are able to guide light with low attenuation within a hollow core. For this experiment a hot wire detection system was designed, along with a number of complex vacuum systems. The first dual-beam fibre trap for micron-size particles constructed using endlessly single-mode photonic crystal fibre (ESM-PCF) is described. The characteristics of dual-beam fibre traps are governed by the fibres used. As ESM-PCF has considerably different properties in comparison to conventional single- or multimode fibres, this dual beam ESM-PCF trap exhibits some novel characteristics. I show that the dual beam ESM-PCF trap can form trapping, repulsive and line potentials; an interference-free ‘white light’ trap; and a dual-wavelength optical conveyor belt.

539.6