Shaping the future through collaboration
En AGPhotonics, nos enorgullece participar en proyectos industriales y de investigación de vanguardia. Creemos que la colaboración es el motor de la innovación, y formar parte de iniciativas y consorcios estratégicos nos permite intercambiar ideas, integrar diversos conocimientos y generar un impacto real.
Al colaborar estrechamente con instituciones académicas, empresas y programas públicos de investigación, contribuimos a forjar el futuro de la fotónica integrada en los sectores de la salud, las comunicaciones y otros.
At AGPhotonics, we are proud to participate in cutting-edge research and industrial projects. We believe that collaboration drives innovation, and being part of strategic initiatives and consortia allows us to exchange ideas, integrate diverse expertise, and generate real impact.
Projects
🚀 IMPACT Photonics
Integrated photonic and terahertz systems have the potential to revolutionize healthcare, with biomarker detection and monitoring devices offering very high sensitivity in compact, low-cost devices that can be deployed in the immediate patient environment. The IMPACT-Photonics project will develop this potential by investigating novel integrated photonic sensors capable of area-based detection and terahertz reflectometers that, combined with advances in microfluidic techniques, surface chemical functionalization, and advanced readout instrumentation, will enable simultaneous monitoring of biomarkers related to cancer drug treatments.
Partners
Funds
Proyecto subvencionado por el CDTI y apoyado por el Ministerio de Ciencia e Innovación en el Marco del Programa Misiones de Ciencia e Innovación vinculadas al PERTE de Microelectrónica y Semiconductores del año 2023
🌐 Enlace
Currently, there are dozens of constellation projects, either ongoing or active, with thousands of satellites incorporating laser communication in their missions. However, the technology employed, based on continuous wave (CW) lasers, is only effective for inter-satellite communications in space, as atmospheric attenuation, caused by multiple factors, hinders or blocks signal transmission on Earth-to-space and Earth-to-Earth links, at the levels necessary to enable transmission speeds of tens or even hundreds of Gbps. ENLACE proposes a system based on ultrashort pulse lasers, recently demonstrated in Earth-to-Earth connections at transmission speeds of >1 Gbps, which will be extended to >25 Gbps, on Earth-to-Earth and Earth-to-space links, being immune to atmospheric effects. It incorporates hybrid modules and architectures of integrated photonics and high-power pulsed fiber lasers, offering an unprecedented solution on the market.
Partners
Funds
Proyecto subvencionado por el CDTI y apoyado por el Ministerio de Ciencia e Innovación en el Marco del Programa Misiones de Ciencia e Innovación vinculadas al PERTE de Microelectrónica y Semiconductores del año 2023