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31	Avaliação In vitro da irradiação com laser de Nd:YAG e Er:YAG no selamento radicular, variando-se o cimento obturador do sistemas de canais radiculares / In vitro evaluation of the Nd:YAG and Er:YAG lasers irradiation on the root sealing with different root canal filling cement Cardoso, Luciano Natividade 14 August 2009 (has links) O objetivo deste estudo foi analisar a influência da irradiação com lasers de alta intensidade antes da obturação de canais radiculares com cimentos endodônticos resinosos no selamento lateral. Dentes permanentes humanos (n=36) foram endodonticamente tratados e, então, divididos aleatoriamente em nove grupos experimentais (n=4), de acordo com o tratamento dentinário subsequente. Os grupos foram: G1(N-Rickert/sem laser) ; G2(Epiphany SE®/sem laser); G3(EndoREZ®/sem laser); G4(N-Rickert/laser Nd:YAG); G5(Epiphany SE®/laser Nd:YAG); G6 (EndoREZ®/ laser Nd:YAG); G7(N-Rickert/laser Er:YAG); G8(Epiphany SE®/laser Er:YAG)e G9 (EndoREZ®/ laser Er:YAG).Os parâmetros utilizados para o lasers foram: laser de Nd:YAG (1,5 W, 100 mJ, 15 Hz) e laser de Er:YAG (1 W, 100 mJ, 10 Hz). Todos os dentes foram obturados pelo mesmo operador, utilizando a técnica do cone único para os elementos obturados com os cimentos resinosos e cones múltiplos quando utilizado o cimento de N-Richert. Os cimentos estudados foram preparados conforme as instruções dos fabricantes. Após decorrido o tempo de espera de pressa total de todos os cimentos obturadores os espécimes tiveram sua superfície radicular impermeabilizada com Araldite, em toda a sua extensão. Tubos de microcentrífuga de 1,5 mililitros foram cortados em uma das extremidades e o dente foi inserido até que o ápice ficasse localizado externamente. O espaço existente entre a superfície radicular e o tubo de microcentrífuga foi selado com Araldite, esse selamento proporcionou o vedamento da porção inferior do tubo. Após isto os conjuntos foram submetidos processo de esterilização por óxido de etileno a uma temperatura de 56ºC por quatro horas. Os tubos foram imersos em vidros tipo penicilina que continham 5ml de BHI previamente estéreis. Colônias de Enterococcus faecalis foram semeadas dentro dos tubos, para observar ou não a percolação marginal dos cimentos estudados através da turvação do meio de cultura, por um período de 45 dias. Observou que os dentes dos G1, G3 e G8 0% de contaminação, G4, G5 e G6 50% de espécimes contaminadas, G2 e G9 75% de elementos contaminados e G7 100% dos espécimes contaminados após o período de avaliação. / The aim of this in vitro study was to analyze two high power lasers irradiation effects before the root canal filling procedure with resin endodontic cements on the lateral sealing. Thirty-six permanent human molars were endodontically treated and randomly assigned in nine experimental groups (n=4) according with the subsequent dentin treatment. The groups were as follows: G1 (N-Rickert); G2 (Epiphany SE®); G3 (Endo REZ®); G4 (N-Rickert / Nd:YAG laser irradiation); G5 (Epiphany SE® / Nd:YAG laser irradiation); G6 (EndoREZ® / Nd:YAG laser irradiation); G7 (N-Rickert / Er:YAG laser irradiation); G8 (Epiphany SE® / Er:YAG laser irradiation) and G9 (EndoREZ® / Er:YAG laser irradiation). The laser parameters used were: Nd:YAG laser (1064 nm) at 1.5W, 100 mJ, 15 Hz; and Er:YAG laser (2940 nm) at 1.0 W, 100 mJ, 10Hz. All the teeth were filled by the same operator using the single cone technique for the elements filled with resin cements and multiple cones when the NRickert cement was used. The analyzed cements were prepared following the manufacturers recommendations. After the waiting and total setting time of all the root canal filling materials all the samples were coated along their root surfaces with Araldite®. Micro centrifuge tubes of 1.5 ml were cut in one of the edges and the samples were introduced until their apexes were externally located. The space between the root surface and the micro centrifuge tubes was sealed with Araldite® in order to seal the inferior tube portion. Following this, all samples were sterilized by ethylene oxide at a temperature of 56oC for four hours. The tubes were immersed in penicillin glasses with 5 ml of BHI previously sterilized. Enterococcus faecalis colonies were sought inside the tubes in order to observe a possible marginal percolation of the studied cements through a culture media turbidity process for a period of 45 days. It was possible to observe after the evaluation period an absence of contamination (0%) on samples from G1, G3 and G8; 50% of contamination on samples from G5 and G6; 75% of contamination on samples from G2 and G9 and 100% of contamination on samples from G7. Cimentos resinosos Endodontia Endodontics High power lasers Lasers em alta intensidade Resin cements Root canal sealing Selamento radicular
32	Influência de aplicações do laser érbio:YAG sobre a viabilidade microbiana, sua resistência a drogas e atividade hemolítica Lopes, Angélica Marquezim [UNESP] January 2003 (has links) (PDF) Made available in DSpace on 2014-06-11T19:28:02Z (GMT). No. of bitstreams: 0 Previous issue date: 2003Bitstream added on 2014-06-13T19:57:14Z : No. of bitstreams: 1 lopes_am_me_araca.pdf: 932429 bytes, checksum: 58f57b4ef355fad92340a3819101663b (MD5) / A atividade antimicrobiana do laser Er:YAG foi avaliada sobre biofilme bacteriano constituído por Escherichia coli ATCC 8739, Escherichia coli ATCC 25922, Staphylococcus aureus ATCC 6538 e 3 cepas de Fusobacterium nucleatum e sobre biofilme de microrganismos salivares. Os biofilmes foram submetidos à ação do laser a 1,2 W e 10 Hz por 5, 10, 15, 20, 30 e 60 s e fez-se a avaliação da microbiota residual em ágar sangue, em anaerobiose. O biofilme salivar se mostrou mais sensível nos primeiros tempos de irradiação. A redução microbiana em relação ao controle foi estatisticamente significativa entre todos os tempos testados. Avaliou-se também a ação do laser Er:YAG sobre 7 cepas de Fusobacterium nucleatum inoculadas sobre a superfície de corpos-de-prova (5mmX4mm) de dentes extraídos. Fez-se a aplicação do laser nos mesmos parâmetros físicos mencionados anteriormente, durante 15 s, levando à eliminação total do conteúdo séptico. O estudo avaliou também a irradiação do laser de Er:YAG durante tempos subinibitórios sobre a atividade hemolítica e susceptibilidade de 9 cepas de Fusobacterium nucleatum a amoxicilina, eritromicina, metronidazol e tetraciclina. Após a irradiação do laser, determinou-se a concentração inibitória mínima (CIM) para as drogas através do método de diluição em ágar. A ação do laser sobre a atividade hemolítica foi determinada em sangue humano. Verificou-se que o laser Er:YAG não afetou a atividade hemolítica de Fusobacterium nucleatum, que se mostrou α-hemolítica, tampouco a susceptibilidade a drogas dos isolados testados. / Antimicrobial activity of Er:YAG laser was evaluated on a bacterial biofilm constituted by Escherichia coli ATCC 8739, Escherichia coli ATCC 25922, Staphylococcus aureus ATCC 6538 and 3 strains of Fusobacterium nucleatum and on biofilm produced by salivary microorganisms. Biofilms were irradiated by Er:YAG laser, 1,2 W and 10 Hz, for 5, 10, 15, 20, 30, and 60 s and the evaluation of residual contamination was performed on blood agar, under anaerobiosis. It was verified that salivary biofilm showed to be more susceptibility to the Er:YAG laser in shorter periods of laser irradiation. Bacterial reduction was significative in all tested periods of irradiation. The activity of Er:YAG laser was also evaluated on 7 strains of Fusobacterium nucleatum inoculated on samples of human dentin (5mm X 4mm), obtained from extracted teeth. The laser was used following the same physical parameters, as previously described, for 15 s, leading to complete elimination of their septic content. The study also evaluated the effects of subinibitory irradiation of Er:YAG laser on bacterial susceptibility of 9 strains of Fusobacterium nucleatum to antimicrobial drugs (amoxicillin, erythromycin, metronidazole, tetracycline) and hemolysis. Thus, after laser irradiation, the minimal inhibitory concentration of antimicrobial drugs was determined by using an agar dilution method. The influence of laser on hemolysis was carried out on human blood. It was verified that Er:YAG laser did not produce any measurable effect on hemolytic activity and the microbial susceptibility to tested antimicrobial drugs. Nd-YAG lasers Érbio Lasers em odontologia Lasers em alta intensidade Bactérias Desinfecção High power lasers Bacteria Disinfection
33	Avaliação In vitro da irradiação com laser de Nd:YAG e Er:YAG no selamento radicular, variando-se o cimento obturador do sistemas de canais radiculares / In vitro evaluation of the Nd:YAG and Er:YAG lasers irradiation on the root sealing with different root canal filling cement Luciano Natividade Cardoso 14 August 2009 (has links) O objetivo deste estudo foi analisar a influência da irradiação com lasers de alta intensidade antes da obturação de canais radiculares com cimentos endodônticos resinosos no selamento lateral. Dentes permanentes humanos (n=36) foram endodonticamente tratados e, então, divididos aleatoriamente em nove grupos experimentais (n=4), de acordo com o tratamento dentinário subsequente. Os grupos foram: G1(N-Rickert/sem laser) ; G2(Epiphany SE®/sem laser); G3(EndoREZ®/sem laser); G4(N-Rickert/laser Nd:YAG); G5(Epiphany SE®/laser Nd:YAG); G6 (EndoREZ®/ laser Nd:YAG); G7(N-Rickert/laser Er:YAG); G8(Epiphany SE®/laser Er:YAG)e G9 (EndoREZ®/ laser Er:YAG).Os parâmetros utilizados para o lasers foram: laser de Nd:YAG (1,5 W, 100 mJ, 15 Hz) e laser de Er:YAG (1 W, 100 mJ, 10 Hz). Todos os dentes foram obturados pelo mesmo operador, utilizando a técnica do cone único para os elementos obturados com os cimentos resinosos e cones múltiplos quando utilizado o cimento de N-Richert. Os cimentos estudados foram preparados conforme as instruções dos fabricantes. Após decorrido o tempo de espera de pressa total de todos os cimentos obturadores os espécimes tiveram sua superfície radicular impermeabilizada com Araldite, em toda a sua extensão. Tubos de microcentrífuga de 1,5 mililitros foram cortados em uma das extremidades e o dente foi inserido até que o ápice ficasse localizado externamente. O espaço existente entre a superfície radicular e o tubo de microcentrífuga foi selado com Araldite, esse selamento proporcionou o vedamento da porção inferior do tubo. Após isto os conjuntos foram submetidos processo de esterilização por óxido de etileno a uma temperatura de 56ºC por quatro horas. Os tubos foram imersos em vidros tipo penicilina que continham 5ml de BHI previamente estéreis. Colônias de Enterococcus faecalis foram semeadas dentro dos tubos, para observar ou não a percolação marginal dos cimentos estudados através da turvação do meio de cultura, por um período de 45 dias. Observou que os dentes dos G1, G3 e G8 0% de contaminação, G4, G5 e G6 50% de espécimes contaminadas, G2 e G9 75% de elementos contaminados e G7 100% dos espécimes contaminados após o período de avaliação. / The aim of this in vitro study was to analyze two high power lasers irradiation effects before the root canal filling procedure with resin endodontic cements on the lateral sealing. Thirty-six permanent human molars were endodontically treated and randomly assigned in nine experimental groups (n=4) according with the subsequent dentin treatment. The groups were as follows: G1 (N-Rickert); G2 (Epiphany SE®); G3 (Endo REZ®); G4 (N-Rickert / Nd:YAG laser irradiation); G5 (Epiphany SE® / Nd:YAG laser irradiation); G6 (EndoREZ® / Nd:YAG laser irradiation); G7 (N-Rickert / Er:YAG laser irradiation); G8 (Epiphany SE® / Er:YAG laser irradiation) and G9 (EndoREZ® / Er:YAG laser irradiation). The laser parameters used were: Nd:YAG laser (1064 nm) at 1.5W, 100 mJ, 15 Hz; and Er:YAG laser (2940 nm) at 1.0 W, 100 mJ, 10Hz. All the teeth were filled by the same operator using the single cone technique for the elements filled with resin cements and multiple cones when the NRickert cement was used. The analyzed cements were prepared following the manufacturers recommendations. After the waiting and total setting time of all the root canal filling materials all the samples were coated along their root surfaces with Araldite®. Micro centrifuge tubes of 1.5 ml were cut in one of the edges and the samples were introduced until their apexes were externally located. The space between the root surface and the micro centrifuge tubes was sealed with Araldite® in order to seal the inferior tube portion. Following this, all samples were sterilized by ethylene oxide at a temperature of 56oC for four hours. The tubes were immersed in penicillin glasses with 5 ml of BHI previously sterilized. Enterococcus faecalis colonies were sought inside the tubes in order to observe a possible marginal percolation of the studied cements through a culture media turbidity process for a period of 45 days. It was possible to observe after the evaluation period an absence of contamination (0%) on samples from G1, G3 and G8; 50% of contamination on samples from G5 and G6; 75% of contamination on samples from G2 and G9 and 100% of contamination on samples from G7. Cimentos resinosos Endodontia Lasers em alta intensidade Selamento radicular Endodontics High power lasers Resin cements Root canal sealing
34	Dispersion-managed Breathing-mode Semiconductor Mode-locked Ring Laser Resan, Bojan 01 January 2004 (has links) A novel dispersion-managed breathing-mode semiconductor mode-locked ring laser is developed. The "breathing-mode" designation derives from the fact that intracavity pulses are alternately stretched and compressed as they circulate around the ring resonator. The pulses are stretched before entering the semiconductor gain medium to minimize the detrimental strong integrating self-phase modulation and to enable efficient pulse amplification. Subsequently compressed pulses facilitate bleaching the semiconductor saturable absorber. The intracavity pulse compression ratio is higher than 50. Down chirping when compared to up chirping allows broader mode-locked spectra and shorter pulse generation owing to temporal and spectral semiconductor gain dynamics. Pulses as short as 185 fs, with a peak power of ~230 w, and a focused intensity of ~4.6 gw/cm2 are generated by linear down chirp compensation and characterized by shg-frog method. To our knowledge, this is the highest peak power and the shortest pulse generation from an electrically pumped all-semiconductor system. The very good agreement between the simulated and the measured results verifies our understanding and ability to control the physical mechanisms involved in the pulse shaping within the ring cavity. Application trends such as continuum generation via a photonic crystal fiber, two-photon fluorescence imaging, and ultrafast pulse source for pump-probe experiments are demonstrated. optics lasers mode-locked lasers semiconductor lasers ultrafast pulse generation ultrafast technology high power lasers laser physics Electromagnetics and Photonics Optics
35	Dense Spectral Beam Combining With Volume Bragg Gratings In Photo-thermo-refractive Glass Andrusyak, Oleksiy 01 January 2009 (has links) Beam combining techniques have become an important tool in the design of high-power high-brightness laser systems. Spectral beam combining (SBC) is an incoherent combining technique that does not require phase control of sources, allowing for a stable and robust system. Using SBC, beams from an array of lasers with each element operated at a different wavelength are combined into a single near-diffraction-limited beam with the same aperture using dispersive optical elements. SBC by means of volume Bragg gratings (VBGs) utilizes unique spectral response of VBGs: diffraction efficiency is close to unity when the Bragg condition is satisfied and is close to zero at multiple points corresponding to particular wavelength offsets from Bragg condition. High-efficiency VBGs can be recorded in UV-sensitive photo-thermo-refractive (PTR) glass. Narrow-band reflecting VBGs allow multi-channel SBC with high spectral density of channels. In this dissertation, experimental results of SBC with high spectral density of combined channels in two spectral regions of interest (1064 and 1550 nm) are reported. The behavior of narrow-band VBGs under high-power laser radiation is investigated. A laser system with kW-level output power and near-diffraction-limited divergence of spectrally-combined output beam is demonstrated. The system combines five randomly-polarized Yb-doped fiber lasers with 0.5 nm spectral separation in central wavelengths using narrow-band reflecting VBGs with absolute efficiency of combining > 90%. A novel design of a multi-channel high-power SBC system is suggested. In this approach, a common-cavity is created for all channels such that wavelengths of the sources are passively controlled by the combination of a common output coupler and intra-cavity VBGs which also act as combining elements. Laser wavelengths are automatically selected to match resonant wavelengths of respective VBGs. We report successful demonstration of a passively-controlled SBC system consisting of two amplifiers in a common cavity configuration. A compact and rugged monolithic SBC module based on multiplexed VBGs is introduced. Experimental results of a four-channel implementation of such module are discussed. Modular design of high-power laser systems is suggested with multiple modules arranged in a series. We show that with basic combining parameters achieved up to date, laser systems with 10 kW output power can be constructed using this arrangement. Further scaling to 100 kW power level is discussed. beam combining fiber lasers high power lasers volume Bragg gratings photo-thermo-refractive glass pulse compression Electromagnetics and Photonics Optics
36	Análise morfológica e da resistência adesiva dos tecidos dentais duros irradiados com lasers de pulsos ultracurtos / Evaluation of dental hard tissues irradiated with ultra-short pulsed lasers. Influence on surface morphology and microtensile bond strength Silva, Marina Stella Bello 16 September 2010 (has links) O desenvolvimento da Odontologia Restauradora culminou com a era das restaurações estéticas adesivas e da intervenção minimamente invasiva, para as quais técnicas inovadoras e materiais de última geração vêm sendo constantemente introduzidos. As técnicas conservadoras visam não somente a remoção do substrato dental cariado, mas também o preparo das paredes da cavidade para a realização da restauração adesiva. Este estudo visou avaliar a possibilidade de introdução dos lasers de pulsos ultracurtos na Odontologia Restauradora, com o intuito de suprir os requisitos básicos para a realização de uma restauração conservadora adequada. A intenção foi de manter os benefícios já conhecidos relacionados à remoção seletiva de cárie com os lasers de alta potência, bem como superar as desvantagens relacionadas às fontes lasers atualmente disponíveis para este fim, como aumento excessivo de temperatura e adesão prejudicada da superfície irradiada à resina composta. Para a melhor avaliação da interação entre os lasers de pulsos ultracurtos e o substrato dental, os experimentos foram realizados em três fases. A Fase 1 visou avaliar o efeito de diferentes comprimentos de onda (355 nm, 532 nm, 1045 nm e 1064 nm), durações de pulso (pico e femtossegundos) e protocolos de irradiação (velocidade de escaneamento da superfície, espessura do espécime, método de refrigeração e taxa de repetição de pulso) em esmalte e dentina. Para a Fase 2, os parâmetros de irradiação que apresentaram resultados mais favoráveis na Fase 1 foram analisados para relacionar o aumento de temperatura com a taxa de ablação e a eficiência de ablação para cada parâmetro. A Fase 3 teve como objetivo analisar a interface adesiva e os valores de microtração da dentina irradiada com os parâmetros selecionados e estudados na Fase 2, utilizando sistemas adesivos do tipo condicione e lave e autocondicionante com diferentes protocolos de adesão (Clearfil SE Bond com e sem Primer, Adper Single Bond com e sem condicionamento ácido). Os resultados obtidos na Fase 1 indicam que a dentina e o esmalte irradiados com lasers de femtossegundos de 1045 nm e picossegundos de 1064 nm apresentam superfície rugosa livre de carbonização. Os protocolos de irradiação selecionados mostram que a irradiação deve ser conduzida com maior velocidade de escaneamento da superfície, e não há necessidade de refrigeração durante a irradiação. Todos os parâmetros utilizados promoveram ablação seletiva do substrato dental, e apresentaram maior taxa de ablação para dentina que para esmalte. A Fase 2 permitiu observar que todos os parâmetros de irradiação selecionados não provocaram aumento de temperatura maior que 6,1 ºC para esmalte e 4,6 ºC para dentina, quando o aumento de temperatura foi aferido no lado oposto ao irradiado, em espécimes de 1 mm de espessura e sem refrigeração. Exceção foi observada para a maior potência do laser de picossegundos, para a qual a temperatura aumentou até 12 ºC em esmalte e 15 ºC em dentina. Os valores obtidos no ensaio de microtração variaram de acordo com os parâmetros de irradiação e o sistema adesivo. A adesão à dentina irradiada com lasers de pulsos ultracurtos apresentou valores de resistência adesiva semelhantes ou significantemente maiores que os obtidos nos grupos controle, para todos os parâmetros de irradiação selecionados. Os resultados obtidos neste estudo indicam que os lasers de pulsos ultracurtos apresentaram resultados favoráveis para o preparo cavitário em esmalte e dentina em relação à morfologia produzida na superfície e ao aumento de temperatura provocado durante a irradiação. A resistência adesiva à dentina irradiada foi semelhante, ou mesmo significantemente maior que a obtida nos grupos controle. Portanto, os lasers de pulsos ultracurtos são considerados uma técnica promissora para a realização de intervenção minimamente invasiva com lasers de alta potência. / The development of restorative dentistry has reached the era of esthetic adhesive restorations and minimally invasive approach, for which innovative techniques and advanced materials are constantly introduced. Conservative techniques aim not only to remove carious dental substrate, but also to prepare cavity surfaces for adhesive restoration. The main objective of this study was to evaluate the possibility of introducing ultra-short pulsed lasers in Restorative Dentistry, in attempt to fulfill the basic requirements of adequate conservative restoration, by maintaining the well-known benefits of lasers for caries removal, but also overcoming disadvantages related to current laser sources available for this purpose, such as temperature increase and damaged adhesion to resin composite. In order to better evaluate the interaction between ultra-short pulsed lasers and dental substrates, experimental procedures were divided in three phases. Phase 1 aimed to evaluate the effect of different wavelengths (355 nm, 532 nm, 1,045 nm, and 1,064 nm), pulse durations (pico and femtoseconds) and irradiation protocols (surface scanning speed, sample thickness, cooling method, pulse repetition rate) on enamel and dentin. For Phase 2, laser parameters with most favorable results in Phase 1 were evaluated to relate temperature increase to ablation rate or ablation efficiency. Phase 3 aimed to analyze adhesive interface and microtensile bond strength to dentin irradiated with the selected parameters by using etch-and-rinse and self-etch adhesive systems with different bonding protocols (Clearfil SE Bond with and without Primer, Adper Single Bond with and without acid etching). The results of Phase 1 indicate that dentin and enamel irradiated with 1,045-nm fs-laser and 1,064-nm ps-laser present a rough surface without carbonization. Irradiation should be conducted with higher scanning speed, and no additional cooling during irradiation was necessary. All parameters provided selective tissue ablation, with higher ablations rate for dentin than enamel. Phase 2 indicated that all parameters tested provoked temperature increase of up to 6.1 ºC for enamel and 4.6 ºC for dentin, when temperature increase was measured at the back side of 1-mm thick samples without cooling during irradiation, except for higher power for ps-laser, for which temperature increased up to 12 ºC for enamel and 15 ºC for dentin. Microtensile bond strength values varied according to laser parameters and adhesive systems used. Adhesion to dentin irradiated with ultra-short pulsed lasers resulted in similar or significantly higher bond strength values than control groups, for all laser parameters analyzed. Based on the results of this study, ultra-short pulsed lasers presented favorable results for cavity preparation in dentin and enamel regarding surface morphology and temperature increase. Adhesion to irradiated dentin was either similar or superior to traditional techniques. Thus, ultra-short pulsed lasers are considered a promising technique for the promotion of laser-supported minimally invasive approach. Bond strength Dentin. Enamel Dentina. Esmalte Femtoseconds Femtossegundos High-power lasers Lasers de alta potência Microscopia eletrônica de varredura Microtensile testing Microtração Picoseconds Picossegundos Pulsos ultracurtos Resistência adesiva Scanning electron microscopy Ultra-short pulses
37	Análise morfológica e da resistência adesiva dos tecidos dentais duros irradiados com lasers de pulsos ultracurtos / Evaluation of dental hard tissues irradiated with ultra-short pulsed lasers. Influence on surface morphology and microtensile bond strength Marina Stella Bello Silva 16 September 2010 (has links) O desenvolvimento da Odontologia Restauradora culminou com a era das restaurações estéticas adesivas e da intervenção minimamente invasiva, para as quais técnicas inovadoras e materiais de última geração vêm sendo constantemente introduzidos. As técnicas conservadoras visam não somente a remoção do substrato dental cariado, mas também o preparo das paredes da cavidade para a realização da restauração adesiva. Este estudo visou avaliar a possibilidade de introdução dos lasers de pulsos ultracurtos na Odontologia Restauradora, com o intuito de suprir os requisitos básicos para a realização de uma restauração conservadora adequada. A intenção foi de manter os benefícios já conhecidos relacionados à remoção seletiva de cárie com os lasers de alta potência, bem como superar as desvantagens relacionadas às fontes lasers atualmente disponíveis para este fim, como aumento excessivo de temperatura e adesão prejudicada da superfície irradiada à resina composta. Para a melhor avaliação da interação entre os lasers de pulsos ultracurtos e o substrato dental, os experimentos foram realizados em três fases. A Fase 1 visou avaliar o efeito de diferentes comprimentos de onda (355 nm, 532 nm, 1045 nm e 1064 nm), durações de pulso (pico e femtossegundos) e protocolos de irradiação (velocidade de escaneamento da superfície, espessura do espécime, método de refrigeração e taxa de repetição de pulso) em esmalte e dentina. Para a Fase 2, os parâmetros de irradiação que apresentaram resultados mais favoráveis na Fase 1 foram analisados para relacionar o aumento de temperatura com a taxa de ablação e a eficiência de ablação para cada parâmetro. A Fase 3 teve como objetivo analisar a interface adesiva e os valores de microtração da dentina irradiada com os parâmetros selecionados e estudados na Fase 2, utilizando sistemas adesivos do tipo condicione e lave e autocondicionante com diferentes protocolos de adesão (Clearfil SE Bond com e sem Primer, Adper Single Bond com e sem condicionamento ácido). Os resultados obtidos na Fase 1 indicam que a dentina e o esmalte irradiados com lasers de femtossegundos de 1045 nm e picossegundos de 1064 nm apresentam superfície rugosa livre de carbonização. Os protocolos de irradiação selecionados mostram que a irradiação deve ser conduzida com maior velocidade de escaneamento da superfície, e não há necessidade de refrigeração durante a irradiação. Todos os parâmetros utilizados promoveram ablação seletiva do substrato dental, e apresentaram maior taxa de ablação para dentina que para esmalte. A Fase 2 permitiu observar que todos os parâmetros de irradiação selecionados não provocaram aumento de temperatura maior que 6,1 ºC para esmalte e 4,6 ºC para dentina, quando o aumento de temperatura foi aferido no lado oposto ao irradiado, em espécimes de 1 mm de espessura e sem refrigeração. Exceção foi observada para a maior potência do laser de picossegundos, para a qual a temperatura aumentou até 12 ºC em esmalte e 15 ºC em dentina. Os valores obtidos no ensaio de microtração variaram de acordo com os parâmetros de irradiação e o sistema adesivo. A adesão à dentina irradiada com lasers de pulsos ultracurtos apresentou valores de resistência adesiva semelhantes ou significantemente maiores que os obtidos nos grupos controle, para todos os parâmetros de irradiação selecionados. Os resultados obtidos neste estudo indicam que os lasers de pulsos ultracurtos apresentaram resultados favoráveis para o preparo cavitário em esmalte e dentina em relação à morfologia produzida na superfície e ao aumento de temperatura provocado durante a irradiação. A resistência adesiva à dentina irradiada foi semelhante, ou mesmo significantemente maior que a obtida nos grupos controle. Portanto, os lasers de pulsos ultracurtos são considerados uma técnica promissora para a realização de intervenção minimamente invasiva com lasers de alta potência. / The development of restorative dentistry has reached the era of esthetic adhesive restorations and minimally invasive approach, for which innovative techniques and advanced materials are constantly introduced. Conservative techniques aim not only to remove carious dental substrate, but also to prepare cavity surfaces for adhesive restoration. The main objective of this study was to evaluate the possibility of introducing ultra-short pulsed lasers in Restorative Dentistry, in attempt to fulfill the basic requirements of adequate conservative restoration, by maintaining the well-known benefits of lasers for caries removal, but also overcoming disadvantages related to current laser sources available for this purpose, such as temperature increase and damaged adhesion to resin composite. In order to better evaluate the interaction between ultra-short pulsed lasers and dental substrates, experimental procedures were divided in three phases. Phase 1 aimed to evaluate the effect of different wavelengths (355 nm, 532 nm, 1,045 nm, and 1,064 nm), pulse durations (pico and femtoseconds) and irradiation protocols (surface scanning speed, sample thickness, cooling method, pulse repetition rate) on enamel and dentin. For Phase 2, laser parameters with most favorable results in Phase 1 were evaluated to relate temperature increase to ablation rate or ablation efficiency. Phase 3 aimed to analyze adhesive interface and microtensile bond strength to dentin irradiated with the selected parameters by using etch-and-rinse and self-etch adhesive systems with different bonding protocols (Clearfil SE Bond with and without Primer, Adper Single Bond with and without acid etching). The results of Phase 1 indicate that dentin and enamel irradiated with 1,045-nm fs-laser and 1,064-nm ps-laser present a rough surface without carbonization. Irradiation should be conducted with higher scanning speed, and no additional cooling during irradiation was necessary. All parameters provided selective tissue ablation, with higher ablations rate for dentin than enamel. Phase 2 indicated that all parameters tested provoked temperature increase of up to 6.1 ºC for enamel and 4.6 ºC for dentin, when temperature increase was measured at the back side of 1-mm thick samples without cooling during irradiation, except for higher power for ps-laser, for which temperature increased up to 12 ºC for enamel and 15 ºC for dentin. Microtensile bond strength values varied according to laser parameters and adhesive systems used. Adhesion to dentin irradiated with ultra-short pulsed lasers resulted in similar or significantly higher bond strength values than control groups, for all laser parameters analyzed. Based on the results of this study, ultra-short pulsed lasers presented favorable results for cavity preparation in dentin and enamel regarding surface morphology and temperature increase. Adhesion to irradiated dentin was either similar or superior to traditional techniques. Thus, ultra-short pulsed lasers are considered a promising technique for the promotion of laser-supported minimally invasive approach. Dentina. Esmalte Femtossegundos Lasers de alta potência Microscopia eletrônica de varredura Microtração Picossegundos Pulsos ultracurtos Resistência adesiva Bond strength Dentin. Enamel Femtoseconds High-power lasers Microtensile testing Picoseconds Scanning electron microscopy Ultra-short pulses
38	Laser-driven shock compression of liquid mixtures and silica  up to extreme thermodynamic conditions of interest for planetary interior models / Compression de mélanges liquides et silice  par chocs générés par laser jusqu’à des conditions thermodynamiques extrêmes  d’intérêt pour les modèles des intérieurs planétaires Guarguaglini, Marco 15 November 2019 (has links) L’étude du comportement des composantes des intérieurs planétaires dans des conditions extrêmes de pression (megabar) et température (milliers de Kelvin) est essentielle afin de construire des modèles fiables décrivant l’évolution et la structure des planètes. Dans ce travail, nous avons étudié plusieurs composantes par compression par choc laser sur les installations LULI2000 (France) et GEKKO XII (Japon).Nous avons employé des chocs décroissants pour étudier des conditions de haute-pression / haute-température. Afin d’accéder à des conditions de température modérée, nous avons utilisé des techniques de pre-compression statique (couplage compression par choc — cellules à enclumes de diamant) et dynamique (génération de doubles chocs).Nous avons étudié l’équation d’état des mélanges eau-ethanol-ammoniac et de l’eau et ammoniac purs, d’intérêt pour la description des intérieurs des planètes géantes de glace. L’étude de l’ammoniac a été particulièrement délicate en raison de sa forte réactivité et donc de la complexité du design des cibles ; nous présentons les premières données obtenues par choc laser, dans un domaine de pression jamais exploré. Les données des mélanges confirment des calculs ab initio récents basés sur une approximation de mélange linéaire.Nous avons également mesuré la réflectivité des mélanges liquides et de la silice, une composante-clé des intérieurs des planètes terrestres. Nous avons ensuite estimé la conductivité électrique — un paramètre crucial pour modéliser la génération des champs magnétiques planétaires dans les intérieurs via un mécanisme dynamo — de ces composantes.Eau, ammoniac et mélanges eau-ethanol-ammoniac affichent des réflectivités différentes, ce qui suggère que l’eau pure ne peut pas être considérée comme représentative des mélanges planétaires dans les modèles dynamo.Par ailleurs, nous avons apporté une confirmation expérimentale de calculs ab initio récents selon lesquels la conductivité de la silice n’est pas monotone le long d’une ligne isotherme pour des températures modérées.Nos données supportent des calculs qui prédisent qu’une dynamo peut avoir lieu dans les océans de magma dans des super-Terres ainsi que dans la jeune Terre. / Characterising the behaviour of planetary interiors’ components at extreme conditions (megabar pressures, temperatures of a few thousand Kelvin) is essential to build reliable models describing the evolution and structure of planets. In this thesis, we investigated various components on a wide set of conditions using laser-driven shock compression techniques at the LULI2000 (France) and GEKKO XII (Japan) facilities.Single decaying shocks were employed to study high-pressure / high-temperature states. To reach moderate-temperature conditions, closer to planetary interior profiles, we employed static and dynamic pre-compression techniques coupling Diamond Anvil Cells to shock compression and generating double shocks, respectively.We studied the equation of state of water-ethanol-ammonia mixtures and of pure liquid water and ammonia, of interest for icy giant structure models. Pure ammonia measurements have been particularly challenging due to cell design complexity in reason of its reactivity; we provide the first data obtained with laser shocks, in a pressure domain up to now unexplored. Mixtures data are in agreement with recent ab initio calculations based on the linear mixing approximation.We measured the optical reflectivity of liquid mixtures and silica, a key component of rocky planets’ interiors. From reflectivity data we estimated the electrical conductivity of such components — a crucial parameter for modelling the generation of planetary magnetic fields in the interiors via a dynamo mechanism.Water, ammonia, and water-ethanol-ammonia mixtures exhibit different reflectivity (hence conductivity) behaviours as a function of pressure and temperature. This suggests that pure water should not be used in dynamo models as representative of the icy mixtures.Moreover, we provide the first experimental confirmation of recent ab initio studies showing that the conductivity of silica along isothermal lines is not monotonic at moderate temperatures. Our data provide experimental support for the calculations predicting a dynamo action to occur in super-Earths’ and early Earth’s magma oceans. Intérieurs planétaires Lasers à haute puissance Ondes de choc Matière dense et tiède Équations d'état Conductivité électrique Planetary interiors High-Power lasers Shock waves Warm dense matter Equations of state Electrical conductivity 530.442 523.4
39	Experimental and Numerical Studies of Mist Cooling with Thin Evaporating Subcooled Liquid Films Novak, Vladimir 11 April 2006 (has links) An experimental and numerical investigation has been conducted to examine steady, internal, nozzle-generated, gas/liquid mist cooling in vertical channels with ultra-thin, evaporating subcooled liquid films. Interest in this research has been motivated by the need for a highly efficient cooling mechanism in high-power lasers for inertial fusion reactor applications. The aim is to quantify the effects of various operating and design parameters, viz. liquid atomization nozzle design (i.e. spray geometry, droplet size distribution, etc.), heat flux, liquid mass fraction, film thickness, carrier gas velocity, temperature, and humidity, injected liquid temperature, gas/liquid combinations, channel geometry, length, and wettability, and flow direction, on mist cooling effectiveness. A fully-instrumented experimental test facility has been designed and constructed. The facility includes three cylindrical and two rectangular electrically-heated test sections with different unheated entry lengths. Water is used as the mist liquid with air, or helium, as the carrier gas. Three types of mist generating nozzles with significantly different spray characteristics are used. Numerous experiments have been conducted; local heat transfer coefficients along the channels are obtained for a wide range of operating conditions. The data indicate that mist cooling can increase the heat transfer coefficient by more than an order of magnitude compared to forced convection using only the carrier gas. The data obtained in this investigation will allow designers of mist-cooled high heat flux engineering systems to predict their performance over a wide range of design and operating parameters. Comparison has been made between the data and predictions of a modified version of the KIVA-3V code, a mechanistic, three-dimensional computer program for internal, transient, dispersed two-phase flow applications. Good agreement has been obtained for downward mist flow at moderate heat fluxes; at high heat fluxes, the code underpredicts the local heat transfer coefficients and does not predict the onset of film rupture. For upward mist flow, the code underpredicts the local heat transfer coefficients and, contrary to experimental observations, predicts early dryout at the test section exit. Wetability Saturated liquid films cooling Subcooled liquid films cooling Enhancement ratio Heat transfer enhancement Ultra thin liquid films Evaporative cooling Two-phase forced convection Two-phase flow cooling Electra laser KRF lasers High average power lasers Spray mist cooling Nozzle generated mist cooling Dispersed flow Nozzles Design and construction Liquid films Atomization Fusion reactors Cooling Lasers Cooling

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