Nonlinear optical properties of nanostructures, photochromic and lanthanide complexes in solution / Propriétés optiques non linéaires de nanostructures, de complexes photochromes et de complexes de lanthanides en solution

Singh, Anu

11 December 2012

L’Optique non linéaire est un outil très puissant pour étudier les propriétés des matériaux. Dans cette thèse, nous avons utilisé deux techniques d’optique non linéaire pour l’étude des non linéarités moléculaires: la génération de seconde harmonique induite sous champ électrique (EFISH) et la diffusion harmonique de la lumière (DHL). Tout d'abord, nous avons mis en évidence la conjugaison des groupements donneurs pi- dans les complexes d’iridium cyclométallés. Nous avons également exploré une série de molécules trinucléaires organométalliques (triaryle-1, 3, 5-triazinane-2, 4, 6-triones) fonctionnalisées par des acétylures métalliques avec des complexes des métaux de transition à leur périphérie- l’hyperpolarisabilité est beaucoup plus élevée que celles des dérivés purement organiques équivalents. D'autre part une série de complexes métalliques dipolaires et octupolaires contenant des ligands 2, 2-bipyridine photochromes à base de dithiényléthène (DTE) ont été synthétisés et caractérisés. L'étude révèle une forte augmentation de Les hyperpolarisabilités après irradiation UV correspondant à la fermeture de cycle associée au DTE. Cette forte exaltation reflète bien la délocalisation du système d’électrons pi- et la formation de chromophores push-pull dans les formes fermées. Troisièmement, nous avons étudié les propriétés optiques non linéaires de complexes de bis (phtalocyaninato) lanthanide (III) en sandwich, avec 2 phthalocyanines substituées en ABAB (alternance de donneurs d'électrons et d’accepteurs d'électrons), AB3 (3 groupes de donneurs), A4 (4 groupes d’accepteurs) et B4 (aucun groupe de donneur). L’hyperpolarisabilité du 1er ordre beta- mesurées sont les plus élevées jamais enregistrées pour des molécules octupolaires. La contribution directe d’électrons f dans les ions lanthanides complexés est également observée sur l'activité non linéaire du second ordre. Enfin, des nanosphères (AuNSs) et des nanotubes d'or (AuNRs) avec différents rapports d'aspect (AR) allant de 1,7 à 3,2 nm ont été synthétisés par la méthode de radiolyse. Le signal de deuxième harmonique émis par des AuNRs est nettement supérieur à celui des nanosphères et révèle leur dépendance à l'AR. Nous avons également mélangé un dérivé du chromophore 4-diméthylamino-N-méthyl-4-stilbazolium tosylate (DAST) avec les AuNRs et observé une influence des AuNRs sur l'amélioration des propriétés ONL du DAST. Une nette augmentation de l’hyperpolarisabilité (par un facteur 8) du derive de DAST en est la preuve. / Nonlinear optics is well known to be a highly powerful tool to investigate the properties of the materials. In this thesis we used two important nonlinear optical techniques known as Electric Field Induced Second Harmonic Generation (EFISH) and Harmonic Light Scattering (HLS) to study the first hyperpolarizability of various molecular objects. Firstly, we evidenced the pi donor conjugation in cyclometallated Ir complexes. We have also explored the series of trinuclear organometallic triaryl-1, 3, 5-triazinane-2, 4, 6-triones functionalized by d6-transition metal acetylides complexes at their periphery- large hyperpolarizabilities, far higher than those of related purely organic derivatives are reported. Secondly, a series of dipolar and octupolar dithienylethene (DTE)-containing 2, 2-bipyridine ligands with different metal ions featuring two, four and six photochromic dithienylethene units have been synthesized and fully characterized. The study reveals a large increase in the hyperpolarizability after UV irradiation and subsequent formation of ring-closed isomers. This efficient enhancement clearly reflects the delocalization of the pi-electron system and the formation of strong push&pull chromophores in the closed forms. Thirdly, we have investigated NLO properties of bis (phthalocyaninato) lanthanide-(III) double-decker complexes with crosswise ABAB (phthalocyanine bearing alternating electron-donor and electron-acceptor groups), AB3 (3 donor groups), A4 (4 donor groups) and B4 (no donor groups) ligands. First-order hyperpolarizability is measured and displays the highest quadratic hyperpolarizability ever reported for an octupolar molecule. The direct contribution of f-electrons in coordinated lanthanides ions is also observed on second order nonlinear activity. Finally, gold nanospheres (AuNSs) and gold nanorods (AuNRs) with different aspect ratios (AR) ranging from 1.7 to 3.2 nm have been synthesized by Radiolysis method. Second harmonic intensity collected from AuNRs is clearly higher than that of the nanospheres and reveals their dependence on the AR. We have also mixed the chromophore 4-dimethylamino-N-methyl-4-stilbazolium tosylate (DAST) derivative with AuNRs and observed the enhancement of DAST NLO properties in the presence of AuNRs. A clear increase in the hyperpolarizability (by a factor of 8) of DAST derivatives has been evidence.

Optique non linéaire

Photochromisme

Nanoplasmonique

Ingénierie moléculaire

Nonlinear optics

Harmonic Light Scattering (HLS)

Photochromism

Lanthanides

Gold nanoparticles

Nové molekulární materiály pro nelineární optiku - příprava a detailní charakterizace / Nové molekulární materiály pro nelineární optiku - příprava a detailní charakterizace

Mathauserová, Jana

January 2013

In this thesis both an experimental and computational study of selected prospective materials for nonlinear optics is presented. The main focus was put on 2-aminopyrimidinium hydrogen- phosphite (AMPPO3), a salt with high SHG efficiency and Type I. phase matching properties. AMPPO3 had been studied by our research group and its favourable qualities such as easy preparation, colourlessness, great water solubility and good crystallinity motivated further in- terest and the attempts for the growth of bulk single crystals from thermostated aqueous solu- tions as presented here. The products are meant to be probed by laser in a specific direction to determine the maximum SHG efficiency, so far the polarized microscopy study revealing the extreme dispersion effects is provided. AMPPO3 is an example of H-bond stabilized framework with both organic and inorganic building blocks. The computational study was led as to understand the structure which is typical for one of the classes of compounds exhibiting nonlinear optical properties. DFT implemented in parallel CP2K was used and for the comparison three other optically active materials of sim- ilar composition were studied - urea, guanylurea hydrogenphosphite and 2-aminopyrimidine- boric acid 3/2 cocrystal. After the constrained geometry optimization and cell...

Étude de la génération de rayonnement optique de seconde harmonique dans les systèmes nanométriques et fabrication des sondes optiques pour le champ proche / Study of the generation of second harmonic optical radiation in nanoscale systems and manufacture of optical probes for near field

Slablab, Abdallah

08 December 2010

Les propriétés optique des nanoparticules ont ouvert de nouvelles voies dans de nombreux domaines, de l'optique fondamental avec la compréhension des interactions dans la matière, la biologie et la compréhension du fonctionnement des milieux cellulaires, en passant par la microscopie en champ proche, qui permet de sonder localement les propriétés physiques de divers nano-systèmes. Au cours de ce travail, nous avons réalisé l'étude de la génération de seconde harmonique (GSH) de nanoparticules de KTP ainsi que de dimères d'or isolés. Des mesures optiques du rayonnement émis par ces nano-objets montrent qu'ils sont parfaitement photostables. Par ailleurs, nous avons aussi étudié de nouvelles particules actives qui permettent d’obtenir un double signal, de luminescence ainsi que de GSH. Ces nanosources bimodales sont constituées des nanoparticules de KTP dopées avec des ions Europium. Dans une seconde partie, nous tentons de fabriquer des sondes optiques pour le champ proche en utilisant les nanocristaux non-linéaires de KTP, ceci dans le but de développer une nouvelle microscopie optique en champ proche capable de sonder localement et vectoriellement un champ électromagnétique. Une pointe de microscopie à force atomique est fonctionnalisée par une particule d'or, puis approchée d'un nanocristal de KTP. Des résultats préliminaires montrent qu'il est possible par cette méthode de sonder le champ électromagnétique présent autour d'une nanoparticule d'or. / The optical properties of nanoparticles have opened new avenues in many areas of optics with the fundamental understanding of the interactions in matter, biology and understanding of the functioning of cell media, through the near-field microscopy, which allows us to probe locally the physical properties of various nano-systems. In this work, the study of second harmonic generation (SHG) has been performed on isolated nanoparticles of KTP and dimers of gold. Optical measurements of radiation emitted by these particles show that nanoparticles are perfectly photostable.Furthermore, we also explored new active particles that deliver a double signal, luminescence and GSH. These nanosources bimodal nanoparticles consist of KTP doped with europium ions. In the second part, we try to manufacture optical probes for near field using nonlinear nanocrystals in this case the probe is KTP nanocrystals. A tip of atomic force microscopy is functionalized by a particle of gold, then approached a nanocrystal of KTP. Preliminary results showed that it was possible to probe the electromagnetic field present around a gold nanoparticle.

Nanoparticules uniques

Génération de seconde harmonique

Optique non linéaire

Plasmon

Sonde

Microscopie de champ proche

Single nanoparticle

Second harmonic generation

Nonlinear optics

Plasmon

Probe

Near-field microscopy

Architectures stimulables à base de foldamères photo- et électroactifs / Stimuli-responsive architectures based on photo- or electroactive foldamers

Faour, Lara

27 November 2018

Les foldamères de type oligopyridine biscarboxamide constituent une famille d’oligomères synthétiques pouvant adopter une structure hélicoïdale et s’hybrider pour former des hélices doubles. Ce travail a eu pour objectif de synthétiser une nouvelle génération de foldamères π-fonctionnels porteurs de groupements photoactifs ou électroactifs, d’étudier les facteurs gouvernant l’équilibre entre hélice simple et hélice double, d’analyser l’impact de cet équilibre sur les propriétés optiques, et enfin de mettre en place un nouveau type de stimulus permettant de contrôler cet équilibre. Deux foldamères photoactifs dotés d’unités Disperse Red, ont été synthétisés. Leurs structures cristallographiques confirment la formation de structures hélicoïdales. Un choix précis du solvant permet d’orienter sélectivement l’équilibre vers la formation d’une hélice simple ou double.Le contrôle de l’équilibre d’hybridation par dilution permet de moduler l’activité en Génération de Seconde Harmonique du foldamère. En outre, la cavité générée par l'hélice permet la reconnaissance de divers anions. Enfin, les premiers efforts fournis pour induire une hélicité donnée à ces foldamères par voie supramoléculaire sont décrits. Par ailleurs, un foldamère électroactif fonctionnalisé par deux unités tétrathiafulvalène (TTF) a été synthétisé selon une méthodologie originale. La présence des unités TTF permet un contrôle redox inédit de la structuration du foldamère, par dimérisation de cations radicaux. Le concept a été élargi via l’immobilisation d’un foldamère sur surface d’or (SAMs). Enfin, une capsule électroactive capable de complexer l’acide tartrique a également été synthétisée et caractérisée. / Oligopyridine biscarboxamide-based foldamers constitute a family of synthetic oligomers that can fold into helical structures and hybridize to form double helices. This work aims at synthesizing a new generation of π-functionalized foldamers featuring photoactive and electroactive moieties, in order: to study the factors governing the equilibrium between simple and double helices, to analyze the impact of this equilibrium on the optical and recognition properties, and to set up a new type of stimulus to control this equilibrium. Two photoactive foldamers of different lengths and bearing two Disperse Red units were synthesized. Their crystallographic structures confirm the formation of helical structures. A precise choice of the solvent allows to drive the equilibrium towards the single or the double helix selectively.The cavity generated within the helix presents a good affinity for anions. The control over the hybridization equilibrium allows modulating the Second Harmonic Generation activity. Eventually, our first efforts to control the helicity of these foldamers through supramolecular chiral induction are described. On the other hand, an electroactive foldamer featuring two tetrathiafulvalene (TTF) units was synthesized according to an original methodology. The presence of TTF units allows an unprecedented redox control of the structure of foldamer, by dimerization of radical cations. The concept has been extended by immobilizing a foldamère on a gold surface (SAMs). Finally, an electroactive capsule capable of complexing tartaric acid has also been synthesized and characterized.

Foldamères π-Fonctionnels

Structure hélicoïdale

Tétrathiafulvalène

Π-Dimérisation

Disperse Red

Π-Functional foldamers

Helical structures

Molecular recognition

Hybridization

Π-Dimerization

Tetrathiafulvalene

Disperse Red

Second harmonic generation

540

Zdokonalené metody pro snímání obrazových dat a analýzu tkání a buněk pomocí konfokální a multifotonové mikroskopie / Improved Methods of Image Acquisition and Analysis of Tissues and Cells by Confocal and Multi-Photon Microscopy

Chernyavskiy, Oleksandr

January 2015

Univerzita Karlova v Praze Přírodovědecká fakulta Studijní program: Vývojová biologie (P1520) Studijní obor: Vývojová biologie (1501V000) Oleksandr Chernyavskiy Zdokonalené metody pro snímání obrazových dat a analýzu tkání a buněk pomocí konfokální a multifotonové mikroskopie Improved Methods of Image Acquisition and Analysis of Tissues and Cells by Confocal and Multi-Photon Microscopy Abstrakt disertační práce Školitel: RNDr. Lucie Kubínová CSc Praha, 2015 Abstract The aim of this study was to develop methods and approaches for image acquisition with subsequent image analysis of data, obtained by confocal and two- photon excitation microscopy as well as their combination, enabling new possibilities of visualization and assessment of information on biological tissues and cell structures in 3D and their measurement. We focused on methods that exploited advantages of confocal and multi-photon excitation microscopy. Our further aim was to demonstrate the applicability of non-invasive approach for in vivo applications, usefulness and the relevance of these methods in several special biological applications with emphasis on improved image acquisition, analysis and evaluation of real biological specimens. The present work was not oriented on just one specific biological problem, but rather to methodological...

Étude de la phase pseudogap de supraconducteurs Haut-Tc Nd-LSCO par analyse optique de l'anisotropie de la génération de seconde harmonique

Daneau, Simon

04 1900

No description available.

Génération de seconde harmonique

Pseudogap

Supraconducteur

Haut-Tc

Nd-LSCO

Second harmonic generation

High-Tc

Superconductor

Analyse numérique et expérimentale de l'interaction non-linéaire onde/fissure de fatigue par la méthode de génération d'harmoniques / Numerical and experimental analysis of the nonlinear interaction acoustic wave/ fatigue crack by using the higher harmonics method

Saidoun, Abdelkrim

27 January 2017

La détection des fissures fermées constitue un verrou important pour les méthodes conventionnelles de CND. En revanche, les méthodes basées sur le principe du contact acoustique non-linéaire (CAN) représentent un outil potentiel capable de détecter et éventuellement de caractériser les fissures fermées. Dans ce travail de thèse, le CAN et la génération du second harmonique sont au centre de l’attention dans le but d’analyser les mécanismes mis en jeu en vue de la détection et la caractérisation de fissures fermées. Notre approche repose sur une analyse numérique de l’interaction entre une interface de contact et une onde longitudinale et une analyse expérimentale du CAN sur une éprouvette contenant une fissure de fatigue.Le CAN est modélisé par une loi de contact unilatéral avec (ou sans) frottement de Coulomb, en considérant l’interaction non-linéaire entre une onde longitudinale et une interface de contact, d’abord dans un milieu unidimensionnel en utilisant la méthode des différences finies, puis dans un milieu bidimensionnel par la méthode des Eléments Finis. Cette analyse a permis d’expliquer la génération des harmoniques supérieurs et de mettre en évidence les principaux paramètres gouvernant le CAN dans un cas unidimensionnel (onde plane/interface de contact plane), et aussi dans un cas bidimensionnel plus complexe considérant une onde non-plane et des morphologies d’interfaces complexes. Afin de valider les résultats numériques et d’apprécier l’applicabilité de la méthode dans un cas réel, des mesures expérimentales du second harmonique dans le cas d’une fissure de fatigue réelle sont effectuées. Les résultats de cette étude sont en accord avec les tendances numériques obtenues.Enfin, dans le but d’exploiter au maximum la méthode de génération d’harmonique, nous proposons également une stratégie numérique/expérimentale de reconstruction des sources acoustiques, basée sur une méthode d’holographie acoustique, permettant ainsi d’accéder à la distribution des sources de génération du second harmonique au niveau de la fissure. Ces résultats sont prometteurs en vue de la caractérisation des fissures fermées. / The detection of closed cracks constitutes an important obstacle for conventional nondestructiftechnics (NDT). However, nonlinear methods based on contact acoustic nonlinearity (CAN)represent a potential tool for the detection of these defects. In this work, a detailed analysis of thecontact acoustic nonlinearity is proposed in view of the characterization of closed crack.Our approach is based on an association between a numerical analysis of the nonlinear interactionbetween a longitudinal wave and a contact interface, as well as an experimental study of the CAN inthe case of a real fatigue crack.Numerically, the CAN is modeled by using a unilateral contact law with (or without) Coulombfriction. The nonlinear interaction between a longitudinal wave and a contact interface is considered,first in a one-dimensional medium by using the Finite Differences method, and then in a twodimensionalmedium by using the Finite Elements method. This analysis explains the generation ofsuper-harmonics and defines the main physical parameters controlling the CAN in a one-dimensionalcase (plane wave / plane contact interface) and also in a more complex two-dimensional caseconsidering a non-planar wave and complex interface morphologies. In order to validate the numericalresults and to test the applicability of the method in a real case, experimental measurements of thesecond harmonic in the case of a real fatigue crack are realized. The results of this study are inagreement with the numerical tendencies obtained.Finally, in order to exploit well the harmonic generation method, a numerical / experimentalstrategy based on acoustic holography principal for the reconstruction of acoustic sources is proposed.This strategy gives access to the distribution of second harmonic sources at the crack. The results ofthis study are promising in view of the characterization of closed cracks.

Acoustique non-linéaire

Ultrasons non-linéaires

Fissures fermées

Contact acoustique nonlinéaire

Second harmonique

Nonlinear acoustic

Closed cracks

Nonlinear ultrasonics

Contact acoustic nonlinearity

Second harmonic

Estudo das propriedades ópticas lineares e não-lineares de cristais de l-alanina, l-treonina e l-lisina / Linear and nonlinear optical properties study of l-alanine, l-treonine and l-lisine crystals

Misoguti, Lino

18 March 1999

Neste trabalho estudamos uma nova classe de materiais ópticos não-lineares, os cristais orgânicos, que possuem potencial para muitas aplicação em dispositivos. Determinamos diferentes propriedades ópticas lineares e não-lineares de três cristais orgânicos: a l-alanina, a l-treonina e a l-lisina. Esses cristais de aminoácido foram escolhidos por apresentarem propriedades de geração de segundo harmônico (GSH) e por serem materiais nunca estudados sob o ponto de vista da óptica não-linear. Estudamos algumas das propriedades ópticas lineares fundamentais desses cristais biaxiais transparentes, pois deles dependem os fenômenos não-lineares sobre os quais são feitas intensas pesquisas. Determinamos as propriedades lineares como os espectros de absorção, os índices de refração, os eixo ópticos, velocidade de propagação da luz num meio anisotrópico e os limiares de dano por radiação. Posteriormente, determinamos as condições de casamento de fase, a eficiência de GSH, e a auto-modulação de fase. A GSH e a auto-modulação de fase pertencem, respectivamente, a processos não-lineares de segunda e de terceira-ordem. Para o estudo de muitas dessas propriedades foram desenvolvidas novas técnicas experimentais. Uma dessas novas técnicas, a varredura-Z oscilante, teve sensibilidade para determinar, pela primeira vez, o índice de refração não oscilante, vez, o índice de refração não linear desses cristais orgânicos. Além disso, como a todos os processos de caracterização envolveram a preparação de amostras, tivemos a oportunidade de criar procedimentos padrões para manipulação e utilização desses novos materiais. / In this work we studied a new class of nonlinear organic crystals that are potential candidates for devices application. We determined several linear and nonlinear optical properties of three organic crystals: l-alanine, l-threonine and l-lysine. These aminoacid. These aminoacid because their nonlinearities were never studied before. We characterized some of the fundamental linear optical properties of these biaxial transparent crystals, because they have influence on nonlinear phenomena that attracted a lot of research. We determined linear properties like absorption spectra, indices of refraction, optical axes, the light speed propagation in anisotropy media and the optical damage threshold. Subsequently, we determined the phase-matching condition for SHG, efficiency of the SHG and self-phase modulation. The SHG and self-phase modulation belongs, respectively, to the second-order and third-order nonlinear processes. To study several of these properties we had to develop some new experimental techniques. One of them, the oscillatory Z-scan, allows enough sensibility to determine, for the first time, the nonlinear refraction index of these organic crystals. Besides, as all these optical characterization involve the preparation of the samples, we had the opportunity to establishing standard procedures for manipulation of these new materials.

Casamento de fase

Crescimento de cristais

Cristais orgânicos

Crystals growth

Geração de segundo harmônico

Índice de refração

Organic crystals

Phase matching

Refractive index

Second harmonic generation

Varredura-Z

Z-scan

Desenvolvimento de um laser Raman com bombeamento transversal em configuração de ângulo rasante / Development of a side-pumped Raman laser in a grazing incidence geometry

Kores, Cristine Calil

08 May 2015

Lasers Raman são dispositivos que proporcionam uma maneira prática de transformar comprimentos de onda fundamentais em novas linhas espectrais via Espalhamento Raman Estimulado (Stimulated Raman Scattering - SRS). Quando combinados com outros processos de conversão não lineares, os lasers Raman fornecem acesso a comprimentos de onda na região do visível no espectro eletromagnético, que de outra maneira seriam de difícil acesso, como o laranja-amarelo, verde-limão e diversas linhas no azul. A grande vantagem dos lasers Raman é a possibilidade de geração de múltiplas frequências a partir de uma mesma combinação de cristais, tornando esse tipo de laser dispositivos baratos e compactos quando comparados a tecnologias como OPO. Neste trabalho um cristal de Nd:YVO4 foi bombeado por diodo, em configuração transversal, sendo o cristal o responsável pela emissão laser e pelo espalhamento Raman. Na primeira parte do trabalho, a cavidade utilizada apresentava alto fator de qualidade para o comprimento de onda fundamental (1064 nm) e foi estudada a operação laser do 1º Stokes (1176 nm) em regimes de operação quase contínua (q-cw) e contínua (cw). Foi explorada a configuração com uma dobra do feixe laser em ângulo rasante na superfície de bombeamento, bem como a configuração com duas dobras nesta mesma superfície (double beam mode controlling - DBMC). Na segunda parte do trabalho, um cristal LBO foi utilizado para a geração do segundo harmônico (SHG) em 588 nm, o que corresponde a um laser laranja-amarelo. Foi utilizada a configuração com uma dobra e operação cw,com a qual a cavidade apresentava alto fator de qualidade tanto para o 1064 nm quanto 1176 nm. Com a configuração de uma dobra, foi demonstrado que o laser Raman opera em multimodo, com uma variedade de modos de Hermite-Gauss que puderam ser selecionados através apenas do alinhamento da cavidade, incluindo o modo TEM00. Com configuração DBMC, o laser apresentou operação estável oscilando o modo TEM00. Em 1176 nm em regime q-cw, foi obtida a potência máxima de 8,2 W por pulso (multimodo) e 11,7% de eficiência óptica de conversão (diodo para o 1º Stokes), e operando em modo TEM00 a potência máxima de 3,7 W por pulso e eficiência de 5,4% foi obtida com a configuração de duas dobras, de maneira que a tecnologia DBMC se mostrou eficiente para geração de um laser robusto e estável operando com o modo TEM00. Em regime cw o melhor resultado em termos de potência e eficiência foi obtido com a configuração de uma dobra, correspondendo a 1,8 W e 7,3% de eficiência com o laser operando em multimodo. Com o laser laranja, foi demonstrada a operação do modo TEM00 para potências de bombeamento abaixo de 14,5 W. A potência máxima obtida em multimodo foi 820 mW correspondendo a 4% de eficiência óptica de conversão. / Raman lasers are devices that provide practical means to shift fundamental laser wavelengths into new spectral lines via Stimulated Raman Scattering (SRS). When combined with other nonlinear conversion processes, Raman lasers permit access to hard-to-reach regions of the visible electromagnetic spectrum, for example, orange-yellow, lime-green and several blue lines. The great advantage of Raman lasers is the possibility of generating multiple wavelengths using the same set of crystals, which make these devices compact and practical when compared to other technologies as OPOs. In this work, the Nd:YVO4 crystal was laterally pumped by a diode laser and this crystal was responsible for laser generation as well as SRS. In the first part of this work, the laser cavity presented a high Q factor for the fundamental laser wavelength (1064 nm) and the laser operation at the first Stokes (1176 nm) was characterized under quasi-continuous wave operation (q-cw) and in continuous wave (cw) operation. The grazing incidence geometry of the cavity with a single bounce of the laser beam at the pumped facet of the crystal was exploited, as well as with the double bounce (double beam mode controlling - DBMC) of the laser beam at this same crystal facet. In the second part of this work, a LBO crystal was utilized for the second harmonic generation (SHG) at 588 nm, which corresponds to an orange-yellow laser. The single bounce cavity configuration was utilized under cw operation, which presented high Q factor at 1176 nm and at 1064 nm. With the single bounce configuration, the laser operated in a variety of Hermite- Gaussian transversal modes that could be selected simply by cavity alignment, including the TEM00 mode. With the DBMC technology, the laser presented stable operation of the TEM00 mode. At 1176 nm, under q-cw regime, the maximum output peak power of 8.2 W (multimode) was achieved, corresponding to an optical conversion efficiency (diode to 1st Stokes) of 11.7%, and operation of the TEM00 mode yielded a maximum output peak power of 3.7 W and 5.4% efficiency with the double bounce configuration, hence the DBMC technology showed to be an efficient method for the generation of a stable and robust laser operating with TEM00 mode. Under cw regime, the best result in terms of power and efficiency was obtained with the single bounce geometry, yielding 1.8 W (multimode) corresponding to 7.3% efficiency. For the orange-yellow laser, operation of the TEM00 laser mode was demonstrated for low pump powers up to 14.5 W. The maximum output power achieved in multimode operation was 820 mW and 4% optical conversion efficiency.

bombeamento transversal

geração de segundo harmônico

laser

laser

laser de estado sólido

laser Raman

Nd:YVO4

Nd:YVO4

Raman laser

second harmonic generation

side-pumping

solid state laser

Lasers de frequência única de Nd:YIF e Nd:YVO4 na região do vermelho / Single frequency Nd:YLF and Nd:YVO4 laser in the red emission

Camargo, Fabíola de Almeida

15 July 2010

Lasers de estado sólido sintonizáveis com uma estreita largura de linha de emissão na região do vermelho são uma alternativa conveniente aos lasers de corante para aplicações em espectroscopia de alta resolução. Nesse trabalho, foram investigados lasers contínuos de Nd:YLiF4 e Nd:YVO4 operando em frequência única na região de 1,32 - 1,34μm, assim como a geração de segundo harmônico (GSH) desses lasers usando cristais de BiB3O6 (BiBO) e KTiOPO4 com inversão periódica de domínios (ppKTP), para a obtenção da emissão no vermelho (0,65 - 0,67μm). Utilizando um laser de Nd:YVO4 operando em frequência única em uma configuração em anel com um cristal não linear BiBO do tipo I, demonstrou-se o recorde de 680mW no vermelho em 671,1nm, sem a utilizaçãde nenhum elemento seletivo. Uma intonia em todo o ganho (~4 nm) foi obtida atravésda inserção de um etalon com filme refletor (R = 40%) e com 100μm de espessura, o que reduziu a potência de saída no vermelho para 380mW no comprimento de onda de maior ganho (671,15 nm). Em 1342nm foi demonstrada uma potência de saída de 1,5W em frequência única quando utilizado um espelho de saída com transmissão de 2%. Foi demonstrado ainda uma ótima eficiência de conversão de segundo harmônico em um laser em anel de Nd:YLF na polarização π (λ = 1321,5nm) quando usando um cristal de ppKTP. Este laser forneceu 1,4W em frequência única no vermelho em 660,5nm. Essa potência é a máxima que pode ser extraída desse laser no segundo harmônico e no fundamental quando utilizado um espelho com transmissão ótima. Utilizando um etalon com filme refletor (R = 25%), o laser pôde ser sintonizado em Δλ ~ 1,6nm. / All solid-state continuous-wave (cw) narrow emission linewidth and tunable red lasers are convenient alternative sources to bulky and expensive dye-lasers for highprecision laser spectroscopy. Single-frequency operation of diode-pumped Nd:YLiF4 and Nd:YVO4 cw ring lasers were investigated in the 1.32 - 1.34μm range, together with their intracavity second-harmonic generation (SHG) to the red spectral range (0.65 - 0.67μm) using either BiB3O6 (BiBO) or periodically-poled KTiOPO4 (ppKTP) crystals. We report on such a single-end diode-pumped Nd:YVO4 unidirectional red ring laser containing a type-I cut BiBO nonlinear crystal, yielding a record of 680 mW of single-longitudinal mode (SLM) red output power at 671.1nm without any intra-cavity etalon. For smooth SLM wavelength tuning over the full gain bandwidth (4 nm), a partially-coated (R = 40%) 100m-thin etalon was found necessary, reducing the maximum SLM power (at 671.15 nm) to 380 mW. At 1342.5nm and with a T = 2% transmission output coupler, the laser provided an optimal 1.5W of single-frequency power. We demonstrate also optimal intracavity SHG of a Nd:YLF ring laser in the π - polarization ( λ= 1321.5nm) using a ppKTP. The laser yielded 1.4 W of singlefrequency red power at 660.5 nm, as much as the maximum fundamental power that can be extracted from the resonator using an optimal output coupler. With a partiallycoated (R = 25%) thin etalon, the laser was tunable over Δλ ~ 1.6nm.

geração de segundo harmônico

lasers de estado sólido

lasers de frequência única

nonlinear optics

óptica não linear

second harmonic generation

single frequency lasers

solid-state lasers