Research Profile
We investigate light-matter interaction on structured surfaces in a broad range of frequencies and in the time domain, from the visible to THz and from sub-picoseconds to several nanoseconds. This interaction is enhanced by resonant structures, like metallic and dielectric nanoparticles or more complex resonators. Strong light-matter coupling leads to new fundamental phenomena , such as such as enhanced exciton transport, long-range energy transfer, or quantum condensation, that can be exploited to tailor material properties: We shape the properties of matter with light.
Articles of interest
Sept 27, 2020 - EuFlex/Technificient supports remote setups
Sept 25, 2020 - Polaritons in Physical Chemistry
June 23, 2020 - Light Conversion Efficiency of Emitters on Top of Plasmonic and Dielectric Arrays of Nanoparticles
June 23, 2020 - Light–Matter Coupling Strength Controlled by the Orientation of Organic Crystals in Plasmonic Cavities
Meet some of our Researchers
News
Recent Publications
Our most recent peer reviewed publications
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Refractive index sensing using quasi-bound states in the continuum in silicon metasurfaces
Optics Express (2024) -
Tunable emission from H-type supramolecular polymers in optical nanocavities
Chemical Communications (2024) -
Experimental Determination of the Green's function with double probe THz near-field microscopy
(2023) -
Optimization of the efficiency of a nanowire solar cell by nanowire tapering
Journal of Applied Physics (2023) -
Efficiency enhancement in a lensed nanowire solar cell
Journal of Applied Physics (2023)
Contact
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Visiting address
FluxGroene Loper 195612 AZ EindhovenNetherlands -
Visiting address
FluxGroene Loper 195612 AZ EindhovenNetherlands -
Visiting address
Department of Applied PhysicsP.O. Box 5135600 MB EindhovenNetherlands -
Visiting address
Department of Applied PhysicsP.O. Box 5135600 MB EindhovenNetherlands -
Teamleadj.gomez.rivas@ tue.nl
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Secretarysecretariaat.psn@ tue.nl