Carlos Duarte Viveiros

My main work includes developing integrated solutions towards optimization of femto-etching, direct writing and micromachining using femtosecond based mechanisms which will enable the fabrication of the next-generation compact-size, low-power and intelligent sensing devices. In parallel tasks associated with optical fiber sensors fabrication, assembling and testing have been performed, both in lab and field environments.

Domains

Photonics

Projects

SAFEWATER

On chip whispering gallery mode optical microcavities for emerging microcontaminant determination in waters

Publications

Femtosecond laser micromachining of suspended silica-core liquid-cladding waveguides inside a microfluidic channel

Maia, JM;Viveiros, D;Amorim, VA;Marques, PVS;

2022

OPTICS AND LASERS IN ENGINEERING

Femtosecond laser micromachining of an optofluidics-based monolithic whispering-gallery mode resonator coupled to a suspended waveguide

Maia, JM;Amorim, VA;Viveiros, D;Marques, PVS;

2021

SCIENTIFIC REPORTS

Loss mechanisms in femtosecond laser written optical waveguides

Marques, PVS;Amorim, VA;Maia, JM;Viveiros, D;

2021

Proceedings of SPIE - The International Society for Optical Engineering

Intensity-modulated refractometer based on mode-mismatch in surface waveguides inscribed by femtosecond laser direct writing

Amorim, VA;Viveiros, D;Maia, JM;Marques, PVS;

2021

OPTICS AND LASER TECHNOLOGY

View all publications

Centres

Applied Photonics

From fundamental science to real-world innovation: at our Centre for Applied Photonics (CAP), we explore optical phenomena as a unique toolbox for innovation in micro- and nanofabrication, optical, physical, and biochemical sensors, and platforms for analogue simulation and quantum computing. Our researchers focus on developing systems capable of operating in contexts where precise and reliable sensing is essential (industry, environment or biomedicine), as well as nonlinear optical devices for building quantum analogue simulations and computing platforms. Our advances in photonic sensing enable their use in extreme environments, e.g., outer space or deep sea. Based on a non-siloed organisation, the solutions we develop through the study of light and photons require multidisciplinarity and close, cooperative work across our various research domains. With our expertise in photonics and electronic systems integration, we explore the potential for technology transfer to the emerging national and international photonics industry.

Information and Contacts

Phone

+351220402301

Email

[email protected]