SPINONICS

Integrated devices based on spin-orbit photonics
Spin dependent deflection of circularly polarized beam by a Pancharatnam-Berry Phase metasurface. Spin dependent deflection of circularly polarized beam by a Pancharatnam-Berry Phase metasurface. Illustration: J.C.Pannian (Univ. Jena, IAP)

Several breakthrough have been achieved in wavefront shaping owing to the technological advances in metasurface fabrication leading to the development of planar optics wherein the phase and polarization of the beam can be modified due to the Geometric Phase associated with the inhomogeneous distribution of the individual nanostructures. This Project aims to study novel integrated photonic devices based on spin-orbit interactions in anisotropic materials with an inhomogeneous distribution of optic axis resulting in Pancharatnam-Berry Phase (PBP).
In this Project novel integrated photonic components and devices with new functionalities based on PBP will be developed, e.g, directional couplers, polarization-dependent routers, PBP based resonators and so on. In the nonlinear regime light itself writes an inhomogeneous distribution of the optic axis resulting in dynamic integrated devices.

This project has received funding from the European Union's Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No 889525.

Project Information Expand entry

This Project is funded by the European Commission through the H2020 Marie Skłodowska-Curie Individual Fellowships. The Project aims to study novel devices based on spin-orbit photonics.

Call Identifier:
H2020-MSCA-IF-2019
(Marie Skłodowska-Curie Individual Fellowships)

Start: 01/07/2020
Duration: 36 months
Grant Agreement No: 889525

Ultrafast Optics
Jisha Chandroth Pannian, Ph.D.
Responsible Scientist
Portrait Jisha Chandroth Pannian
IAP, Room 253
Albert-Einstein-Straße 15
07745 Jena

Funding

Logo EU Commission
Grant Agreement No: 889525