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ARTIGOS
Paulo Henrique Dias Ferreira
Universidade Federal de São Carlos - UFSCar
Vinicius Tribuzi
Universidade Federal de São Carlos - UFSCar
Roberto Osellame
Istituto di Fotonica e Nanotecnologie (IFN)
Filippo Ghiglieno
Consiglio Nazionale delle Ricerche (CNR)
A produção de dispositivos fotônicos vem tendo um crescimento exponencial nas últimas duas décadas devido as diversas possibilidades de aplicações em diferentes áreas do conhecimento humano, seja em computação quântica, sensoriamento, microfluídica, dentre outros [1].
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[2] Malinauskas, M., et al., “Ultrafast laser processing of materials: from science to industry”. Light: Science &Amp; Applications, 2016. 5: p. e16133.
[3] Sugioka, K. and Y. Cheng, Ultrafast lasers— reliable tools for advanced materials processing. Light: Science &Amp; Applications, 2014. 3: p. e149
[4] Correa, D.S., et al., “Femtosecond Laser in Polymeric Materials: Microfabrication of Doped Structures and Micromachining”. Selected Topics in Quantum Electronics, IEEE Journal of, 2012. 18(1): p. 176-186.
[5] Flamini, F., et al., “Thermally reconfigurable quantum photonic circuits at telecom wavelength by femtosecond laser micromachining”. Light Sci Appl, 2015. 4: p. e354.
[6] Itoh, K., et al., “Ultrafast Processes for Bulk Modification of Transparent Materials”. MRS Bulletin, 2006. 31(08): p. 620-625.
[7] Meany, T., et al., “Laser written circuits for quantum photonics”. Laser & Photonics Reviews, 2015. 9(4): p. 363-384.
[8] Musgraves, J.D., K. Richardson, and H. Jain, “Laser-induced structural modification, its mechanisms, and applications in glassy optical materials”. Optical Materials Express, 2011. 1(5): p. 921-935.
[9] Hunsperger, R., “Integrated Optics, Theory and Technology”. sixth edition ed. 2009: Springer-Verlag New York. XXVIII, 513.
[10] Jackel, J.L. and J.J. Veselka, “Measuring losses in optical waveguides: a new method”. Applied Optics, 1984. 23(2): p. 197-199.
[11] Tittelbach, G., B. Richter, and W. Karthe, “Comparison of three transmission methods for integrated optical waveguide propagation loss measurement”. Pure and Applied Optics: Journal of the European Optical Society Part A, 1993. 2(6): p. 683-700.
[12] Ferreira, P.H.D., et al., “Improvement in measuring losses by interferometric technique for glass waveguides produced by femtosecond laser writing”. Optics Communications, 2022: p. 129132.
