ÌǹûÅɶÔ

At ÌǹûÅÉ¶Ô Nano Optics, we conduct research primarily in the field of plasmonics, with nano-optical fields being coupled to electron oscillations in metal nanostructures, a unique feature that allows one, for example, to combine optics and electronics.

Research Topics and Projects

Our principal research topics are concerned with theoretical studies and experimental investigations of light-matter interactions at nanoscale, including strongly enhanced and extremely confined electromagnetic modes supported by plasmonic nanostructures, linear and nonlinear electromagnetic phenomena for light modulation and detection with ultracompact nanophotonic components, dynamic and multifunctional optical metasurfaces  for molding radiation flow and exercising complete control over wavefronts and polarizations, efficient coupling of quantum emitters to nanostructures for enhancing and funneling spontaneous emission and to metasurfaces for molding single-photon emission.

Current portfolio of projects includes

VILLUM Young Investigator project af 
Quantum Metasurface: A Novel Platform for Generating and Manipulating Single Photons

More VILLUM Experiment projects:

Room-Temperature Generation of Indistinguishable Single Photons by 

Making a single photon capable of detecting a single molecule by 

Tunable vortex lasers triggered by dynamic metasurfaces by 

Other projects:

Inge Lehmann DFF-Research Project by 
Electrically-driven tunable phase-change metasurfaces

Marie S.-Curie Individual Fellowship by 
Advanced Single-Photon Sources Based on On-Chip Hybrid Plasmon-Emitter Coupled Metasurfaces(PhotonMeta)

Carlsbergfondets Reintegration Fellowship by
2D Material Light Sources for Plasmonic Waveguides, (2D-PLAWAVE)

Ministry of Education and Research (UFM) networking project by 
Metasurface-Decorated Silicon Photonics for Quantum Applications

EU ATTRACT Phase 2 research project by
Adaptive METAmaterials for Smart Standalone Histopathology with Polarized Light (META-HILIGHT).