The central idea of the project is the use of the modal spectrum of the optical fibers in order to take profit of the particular properties of specific high-order modes. This subject lies within the context of developing high capability optical communications by exploiting space division multiplexing techniques, few mode fibers and multi-core fibers.
The ISIC in Biomedical Imaging has been created to encourage the synergies among the research fields in which its groups are worldwide renowned: Nanomaterials, ultrasounds, laser technology, gamma rays, optical spectroscopy, photonics, optical fibers, quantum information and electronic microscopy.
Semiconductor Quantum Dots as a key to future technologies: from Nanophotonics to Nanoplasmonics. Ministry of Education (199,000€).
The NAVOLCHI project explores, develops and demonstrates a novel nano-scale plasmonic chip-to-chip and system-in-package interconnection platform to overcome the bandwidth, foot-print and power consumption limitations of todays electrical and optical interconnect solutions. A 2.4M€ FP7 STReP.
The NanoPV project aims at making a breakthrough step-change in photovoltaics by the removal of a set of bottlenecks which have been identified to block the application of nanostructures for high-efficiency, low-cost solar cells. A 4.0M€ FP7 STReP.
Finançat per el Pla Nacional d'I+D, es pretén obtenir informació rellevant sobre els processos d'elaboració, les matèries primeres empleades, així com els canvis que dits materials i processos han experimentat al llarg del període històric estudiat (s.X - s.XVII).
The objective of the project is the development and manufacture in Spain of a femtosecond laser system, low average power (1 W), small size (portable) and affordable (low cost) for industrial use.
A highly integrated and sensitive POrous SIlicon based lab on a chip for multiple quantitaTIVE monitoring of Food allergies at point of care. A 2.9M€ FP7 STReP.
Subcontracted by The Construction Technology Centre - AIDICO, 2010 (10,000€).