Dynamic beam steering with semiconductor metasurfaces
Date
Wednesday March 17, 20212:30 pm - 3:30 pm
Location
ZoomMuhammad Alam
Queens University
Abstract
Operation of conventional optical devices, for example lenses and mirrors depends on phase accumulation as light propagates through refractive materials. An emerging alternative is metasurface, which consists of ultrathin subwavelength optical elements. Tunable metasurfaces enable dynamical control of properties of light at a subwavelength scale and will be useful for many applications including beam steering, dynamical holography and tunable flat lenses. To date, most of the electrically tunable metasurfaces have been realized using free carrier modulation, and switching of thermo-optical, liquid crystal and phase change media. However, the highest performance and lowest loss discrete optoelectronic modulators exploit the electro-optic effect in multiple-quantum-well heterostructures. I will describe how successful adoption of quantum-well heterostructures for achieving tunability can over overcome the limitations of tunable metasurfaces reported to date. I will discuss numerical and experimental results that highlight the promise of this approach and the challenges which need to be overcome before this becomes a successful technology.
For the zoom link please contact Colin Vendromin
Upcoming Events
Nov
22
Friday
Towards Coherent Control in Patterned Graphene
Departmental - Towards Coherent Control in Patterned Graphene
Nov
22
Friday
The secret life of dark compact objects
Departmental - The secret life of dark compact objects
Nov
29
Friday
Variational Monte Carlo with Large Patched Transformers
Departmental -Variational Monte Carlo with Large Patched Transformers