PhD position Chiral Light Emitting Metasurfaces

Work Activities

How do you make a light source that is directional, has a controlled wavefront, and a controlled polarization out of an intrinsically incoherent and disordered set of emitters, like fluorophores in an LED phosphor? This is a defining question in the field of light-emitting metasurfaces, with applications in LEDs, incandescent lighting and VR/AR display pixels. While it is understood how to shape intensity, e.g. making LEDs directional with nanostructures, a completely open question is how to shape polarization of emission at will. This touches on an emerging field in nanophotonics: chirality, which in the light field expresses as circular polarization. Circularly polarized fluorescent light sources are for instance pursued for pixels in 3D display technology. You will work on realizing chiral light emitting devices combining both intrinsically chiral emitters, and nanophotonic engine...