Description: The objective of the proposal is advancing the technology of vector vortex waveplates (VVWs) into: novel spectral ranges that have been practically prohibited by fabrication tolerance and even fundamental issues; broader spectral bandwidths wherein a single VVW could be used for coronagraphs developed for vastly different parts of spectrum; novel, highly robust VVW architectures that would eliminate or, at least, will dramatically reduce the effects of fabrication errors and ambient conditions on device performance; polarization-insensitive VVWs; reduce size and weight of coronagraphs by providing VVWs with other optical functions and integrating them with other multifunctional planar optical components of 4G optics; reduce cost levels wherein the technology becomes available and affordable for low-cost applications and missions.

Benefits: Astronomical coronagraphs; free-space optical communication

Astronomical coronagraphs; free-space optical communication; optical tweezing and micromanipulations; hgih resolution microsocpy, quantum communication, quantum computing