Waveguide amplifiers produced by femtosecond laser in doped heavy metal glasses
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2023
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EUROPEAN SUMMIT ON LASER OPTICS & PHOTONICS TECHNOLOGY
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Waveguides are very suitable structures for integrating optics in miniaturized systems such as those involved in microfluidics. With them, it is possible to stimulate reactions using light and collect information from optical signals from specific points of a given system. Thus, for example, it is possible to transport light from an external source to a microreactor within a microfluidic system and/or collect the emission of any reagent or reaction from any point in the system. In this context, several kinds of research have been carried out for the development of waveguides in transparent materials suitable for use in microfluidic systems such as lab-on-a-chip. A widely used way of producing such guides is through the focusing of ultrashort laser pulses (fs) inside transparent materials. In this case, the intensity is adjusted so that the absorbed energy is sufficient to change the crystalline arrangement in the focal region, but not enough to cause catastrophic damage, that is, that there is no rupture of bonds between atoms. This change in the local arrangement of atoms (or ions) leads to a localized change in the index of refraction, which can be used to refract light. If a line of such regions, or points, has an index of refraction greater than that of the surrounding medium, then it is possible to guide light within it as in an optical fiber. If the index of refraction changes to a value less than that of the neighboring medium, then it is only possible to guide the light between two or more of these lines.
This work describes the development and characterization of waveguides produced with two lines by processing heavy metal oxide glasses with a femtosecond laser. Tellurite (TeO2-ZnO) and germanate (GeO2-PbO) glasses were used [1,2], pure and also doped with rare earth. Raman spectroscopy shows a decrease in the photoinduced refractive index, from -7.4x10-3 to 1x10-5, depending on the material and processing conditions. Thus, it is not possible to guide light inside a single line and, therefore, two of these lines were used for this purpose, with the guidance being done between them. The work details the laser machining process, the physical and spatial characteristics of the guides produced, the characteristics of the guided spatial mode, such as the M2 parameter, the transmission losses, and the gain obtained when glasses doped with rare earths are used.
Como referenciar
ROSSI, WAGNER de; WETTER, NIKLAUS U.; DIPOLD, JESSICA; BORDON, CAMILA D.S.; KASSAB, LUCIANA R.P. Waveguide amplifiers produced by femtosecond laser in doped heavy metal glasses. In: EUROPEAN SUMMIT ON LASER OPTICS & PHOTONICS TECHNOLOGY, September 25-27, 2023, Barcelona, Spain. Abstract... Disponível em: http://repositorio.ipen.br/handle/123456789/34453. Acesso em: 27 Mar 2026.
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