PhD Position in Emitting Metasurfaces: This scholarship offers an opportunity for a PhD position focused on the development of chiral light-emitting devices. The research aims to combine chiral emitters with nanophotonic engineering to create devices with controlled wavefront and polarization, targeting applications in LEDs, virtual and augmented reality.
PhD Position in Chiral Light Emitting Metasurfaces
Designation
PhD Researcher
Research Area
- Nanophotonics
- Light-emitting metasurfaces
- Chirality in optics
Location
Amsterdam Science Park, Amsterdam, The Netherlands
Eligibility/Qualification
- MSc degree in Physics, Optics, Photonics, Physical Chemistry, Nanoscience, or a related field.
Job Description
The selected candidate will:
- Work on novel chiral emitter systems derived from OLED materials.
- Conduct fluorescence microscopy, polarimetry, fluorescence lifetime measurements, and transient absorption spectroscopy.
- Collaborate with researchers from AMOLF and the University of Amsterdam to explore the microscopic origins of chiral fluorescence and manipulate chirality using metasurface resonances.
How to Apply
Interested candidates can apply online via the scholarship’s official page. Email inquiries can be directed to Femius Koenderink at f.koenderink@amolf.nl.
Last Date for Apply
Application deadlines are not explicitly stated; please check the official website for updates on application timelines.
| Feature | Details |
|---|---|
| Position Title | PhD Researcher |
| Research Area | Nanophotonics, Chiral Light Emitting Metasurfaces |
| Location | Amsterdam Science Park, Amsterdam, The Netherlands |
| Eligibility | MSc in Physics, Optics, Photonics, etc. |
| Job Description | Involves experimental and theoretical research in nanophotonics |
| Application Method | Online submission via the official page |
| Contact Email | f.koenderink@amolf.nl |
| Application Deadline | Check official website for updates |
This is an exciting opportunity for candidates looking to make significant contributions to the field of nanophotonics and chiral light emission.
