Description: Optical and electro-optical characterization of materials, quantum emission yield, colour coordinates, No Lab fs Laser radiance and luminance, Laser printing of Bragg gratings in optical fibers for sensors.
The Nanophotonics and Optoelectronics Laboratory is located at Aveiro University and its activities are mainly focused on optical modeling and simulation and on the development and application of advanced micro- and nano- optical fiber sensors in several fields, namely chemical, structural health monitoring and eHealth.
The existing infrastructure laboratory include a fs laser facility (1.0kHz repetition rate; 1.0mJ energy per pulse; vertical/horizontal polarization; 795nm ± (10 nm center wavelength; 22 ± 5ºC environment temperature) and a radiometric platform for measurements and analysis of optical performance as function of temperature.
The Nanophotonics and Optoelectronics Laboratory is equipped with a Femtosecond laser system, Q.switched UV laser system, Climatic Chamber, Radiometric platform and a Characterization kit of ultra-short laser pulses.
Description: Optical and electro-optical characterization of materials, quantum emission yield, colour coordinates, No Lab fs Laser radiance and luminance, Laser printing of Bragg gratings in optical fibers for sensors.
The Nanophotonics and Optoelectronics Laboratory is located at Aveiro University and its activities are mainly focused on optical modeling and simulation and on the development and application of advanced micro- and nano- optical fiber sensors in several fields, namely chemical, structural health monitoring and eHealth.
The existing infrastructure laboratory include a fs laser facility (1.0kHz repetition rate; 1.0mJ energy per pulse; vertical/horizontal polarization; 795nm ± (10 nm center wavelength; 22 ± 5ºC environment temperature) and a radiometric platform for measurements and analysis of optical performance as function of temperature.
The Nanophotonics and Optoelectronics Laboratory is equipped with a Femtosecond laser system, Q.switched UV laser system, Climatic Chamber, Radiometric platform and a Characterization kit of ultra-short laser pulses.
Laser:
• Quantronix, model Integra-C-1.0-F
• Centre wavelength 800 +/- 10 nm
• Pulse energy > 1.0 mJ
• Repetition rate 1 kHz
• Pulse width < 130 fs
• Pulse to pulse stability < 0.5% rms
• M2 factor < 1.3
Campus da FCT Quinta da Torre
(+351) 21 294 8562
cenimat.secretariado@fct.unl.pt
This work is funded by national funds through FCT – Fundação para a Ciência e a Tecnologia, I.P., under project UID/50025 and the Associated Laboratory I3N – LA/P/0037/2020.