Avaliação óptica de vidros teluritos preparados com Er3+ e Er3+/Yb3+ para aplicação em fotônica

Pós-graduação em Ciência dos Materiais - FEIS

Espectroscopia de Lente Térmica aplicada ao sistema Ácido oléico/Beta Caroteno

Neste trabalho apresentamos um estudo na mistura formada pelo betacaroteno diluído em ácido oleico (BC:AO) em diferentes concentrações, usando-se para isso a técnica fototérmica chamada de Lente Térmica. Procuramos variar os diferentes parâmetros de controle como: a espessura da amostra, a sua concentração, a potência do laser de excitação, etc. Aplicamos o modelo aberrante desenvolvido por Shen para encontrar a difusividade térmica, a variação do índice de refração com a temperatura (dn/dT), e a magnitude do sinal de lente térmica, nas amostras. Verificamos, com base no modelo teórico apresentado no capítulo 2, que se o aumento da potência e da concentração é muito grande e atinge um certo valor, parâmetros como difusividade térmica passam a apresentar distorções nos valores medidos. Observamos também que a mistura BC:AO apresenta absorção não linear, mesmo para potências pequenas do laser de excitação usado. As contribuições apresentadas neste trabalho são inéditas e devem contribuir para um melhor entendimento das propriedades térmicas do sistema BC:AO ou de sistemas similares como alguns óleos vegetais que são ricos em ácido oleico e betacaroteno.

Propriedades ópticas e térmicas da oleína de palma

Usamos uma metodologia experimental para investigar propriedades ópticas e térmicas da oleína de palma (OP), a fração líquida do azeite de palma (Elaies guineensis) obtida por fracionamento natural, com propriedades físicas que diferem apreciavelmente do azeite. Em uma primeira abordagem, estudamos os espectros de absorção e emissão monitorando a modificação dos espectros com o aumento da concentração β-caroteno misturado com OP, o que permitiu encontrar o coeficiente de absorção molar do β-caroteno (ε = 920,802 mol ^-1.cm^-1.L). Este valor é muito baixo em relação aos conhecidos para o β-caroteno diluído em um solvente puro, como o benzeno ou o n-hexano. Experimentos feitos com β-caroteno diluído em hexano nos permitiram medir ε = 117.900 L.mol^-1.cm^-1, que representa aproximadamente 18% abaixo dos valores reportados na literatura. Em uma segunda abordagem, os espectros de absorção foram usados para medir o coeficiente de absorção da OP, A = 0,028 cm^-1 em 532 nm, o comprimento de onda de um laser usado como fonte de excitação no estudo das propriedades térmicas da OP usando a técnica de lente térmica. Neste sentido foi medido também o coeficiente térmico do índice de refração da OP, dn/dt = - 3,821 x 10 ^-4 °C ^-1. Estes resultados, associados ao modelo aberrante para estudos de espectroscopia de lente térmica, levaram à medição do coeficiente de difusão, D = 2,19 ± 0,11 x 10^-4 cm²/s, e da condutividade térmica, k = 5,96 ± 0,08 W/m°C. Embora as medidas das propriedades térmicas da OP não sejam ainda conhecidas na literatura, observa-se que elas têm as mesmas ordens de grandeza daquelas já conhecidas para outros óleos vegetais que foram relatadas na literatura.

Síntese, caracterização e estudo do comportamento térmico dos 2-metoxibenzoatos de lantanídeos no estado sólido

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

High fluorescence quantum efficiency of CdSe/ZnS quantum dots embedded in GPTS/TEOS-derived organic/silica hybrid colloids

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Effect of Ag nanoparticles on the radiative properties of tellurite glasses doped with Er3+, Yb3+ and Tm3+ ions

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Spectroscopic investigation and heat generation of Yb3+/Ho3+ codoped aluminosilicate glasses looking for the emission at 2 μm

Energy transfer (ET) and heat generation processes in Yb3+/Ho3+-codoped low-silica calcium aluminosilicate glasses were investigated using thermal lens (TL) and photoluminescence measurements looking for the emission around 2.0 μm. Stepwise ET processes from Yb3+ to Ho3+, upon excitation at 0.976 μm, produced highly efficient emission in the mid-infrared range at around 2.0 μm, with high fluorescence quantum efficiency (η1 ∼ 0.85 and independent of Ho3+ concentration) and relatively very low thermal loading (<0.4) for concentration up to 1.5% of Ho2O3. An equation was deduced for the description of the TL results that provided the absolute value of η1 and the number of emitted photons at 2.0 μm per absorbed pump photon by the Yb3+ ions, the latter reaching 60% for the highest Ho3+ concentration. These results suggest that the studied codoped system would be a promising candidate for the construction of photonic devices, especially for medical applications.

CO2 and diode laser for excisional biopsies of oral mucosal lesions. A pilot study evaluating clinical and histopathological parameters

PURPOSE: The present pilot study evaluates the histopathological characteristics and suitability of CO2 and diode lasers for performing excisional biopsies in the buccal mucosa with special emphasis on the extent of the thermal damage zone created. PATIENTS AND METHODS: 15 patients agreed to undergo surgical removal of their fibrous hyperplasias with a laser. These patients were randomly assigned to one diode or two CO2 laser groups. The CO2 laser was used in a continuous wave mode (cw) with a power of 5 W (Watts), and in a pulsed char-free mode (cf). Power settings for the diode laser were 5.12 W in a pulsed mode. The thermal damage zone of the three lasers and intraoperative and postoperative complications were assessed and compared. RESULTS: The collateral thermal damage zone on the borders of the excisional biopsies was significantly smaller with the CO, laser for both settings tested compared to the diode laser regarding values in pm or histopathological index scores. The only intraoperative complication encountered was bleeding, which had to be controlled with electrocauterization. No postoperative complications occurred in any of the three groups. CONCLUSIONS: The CO2 laser seems to be appropriate for excisional biopsies of benign oral mucosal lesions. The CO2 laser offers clear advantages in terms of smaller thermal damage zones over the diode laser. More study participants are needed to demonstrate potential differences between the two different CO2 laser settings tested.

Fundamentals of optical detection of small particles

This paper reviews a number of used and/or proposed ideas for optical detection of small particles including single molecules. Different techniques (direct absorption and scattering, interferometry, use of sub Poissonian statistics, cavity enhancement, and thermal lens detection) are compared in terms of signal-to-noise ratio. It is shown that scattering (resonance and non resonance) fundamentally remains the method of choice for most applications.

Spontaneous formation of highly ordered nanostructures: thermal instability and mode selection in surface-capped polymer films.

We demonstrate a controllable formation process of wave-like patterns in thermally unstable surface-capped polymer films on a rigid substrate. Self-ordered wave-like structures over a large area can be created by applying a small lateral tension to the film, whereupon it becomes unstable. A clear mode selection process which includes creation, decay and interference between coexisting waves at different annealing conditions has been observed, which makes it possible to restrain the patterns which are formed finally. Our results provide a clear and new evidence of spinodal behaviour in such a film due to thermal instability. Furthermore, we show that the well-controlled patterns generated in such a process can be used to fabricate nanostructures for various applications.

The role of adaptive thermal comfort in the prediction of the thermal performance of a modern mixed-mode office building in the UK under climate change

Climate change is becoming a serious issue for the construction industry, since the time scales at which climate change takes place can be expected to show a true impact on the thermal performance of buildings and HVAC systems. In predicting this future building performance by means of building simulation, the underlying assumptions regarding thermal comfort conditions and the related heating, ventilating and air conditioning (HVAC) control set points become important. This article studies the thermal performance of a reference office building with mixedmode ventilation in the UK, using static and adaptive thermal approaches, for a series of time horizons (2020, 2050 and 2080). Results demonstrate the importance of the implementation of adaptive thermal comfort models, and underpin the case for its use in climate change impact studies. Adaptive thermal comfort can also be used by building designers to make buildings more resilient towards change. © 2010 International Building Performance Simulation Association (IBPSA).

A dual mode SOI CMOS MEMS based thermal conductivity and IR absorption gas sensor

Design, FEM modelling and characterization of a novel dual mode thermal conductivity and infrared absorption sensor using SOI CMOS technology is reported. The dual mode sensing capability is based on the temperature sensitivity and wideband infrared radiation emission of the resistive heating element. The sensor was fabricated at a commercial foundry using a 1 μm process and measures only 1×1 mm2. Infrared detectors usually use thermopiles in addition to a separate IR source. A single highly responsive dual mode source and sensing element targeting not only low molecular mass gases but also greenhouse gases, while consuming 40 mW power at 700°C in synthetic air, thus makes this sensor particularly viable for battery powered handheld devices. © 2013 IEEE.

Single-mode behaviour judgment of optical waveguides by imaginary-distance beam propagation method under perfectly matched layer boundary condition

Imaginary-distance beam propagation method under the perfectly matched layer boundary condition is applied to judge single-mode behaviour of optical waveguides, for the first time to our knowledge. A new kind of silicon-on-insulator-based rib structures with half-circle cross-section is presented. The single-mode behaviour of this kind of waveguide with radius 2mum is investigated by this method. It is single-mode when the slab height is not smaller than the radius.

Design of a Tapered Lens for Semiconductor Laser to Single-Mode Fiber Coupling

The theoretical investigation of the coupling efficiency of a laser diode to a single mode fiber via a hemispherical lens on the tip of the tapered fiber in the presence of possible transverse offset and angular mismatch is reported.Without the misalignment,coupling efficiency increases with the decreasing of taper length.With the misalignment,this relation is that the coupling efficiency decreases with each kind of offset.