Jaime Gómez Rivas

Surface Photonics

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. 

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

Doctoral Candidate

Francesco Verdelli

Full Professor

Jaime Gómez Rivas

Education and Research Technician (Design and Development)

Matthijs Berghuis

Postdoc

Minpeng Liang

News

October 6, 2022
Controlling light-matter interactions in silicon metasurfaces
Gabriel Castellanos Gonzalez defended his PhD thesis at the department of Applied Physics on October 6th.
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September 13, 2021
Jaime Gomez Rivas: “Get ready for the terahertz revolution”
In the latest episode of our podcast Science is here, Jaime Gomez Rivas talks about the future of terahertz technology at TU/e.
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More news
Microscopy with millimeter waves
June 14, 2021
Effective Negative Diffusion of Singlet Excitons in Organic Semiconductors
February 15, 2021
Working in the lab, from home
December 14, 2020
Regular arrays of silicon nanoparticles key to improving light emissions in nanophotonic devices
July 16, 2020

Recent Publications

Our most recent peer reviewed publications

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