Journal article
Silicon nanofin grating as a miniature chirality-distinguishing beam-splitter
M Khorasaninejad, KB Crozier
Nature Communications | Published : 2014
DOI: 10.1038/ncomms6386
Abstract
The polarization of light plays a central role in its interaction with matter, in situations ranging from familiar (for example, reflection and transmission at an interface) to sophisticated (for example, nonlinear optics). Polarization control is therefore pivotal for many optical systems, and achieved using bulk devices such as wave-plates and beam-splitters. The move towards optical system miniaturization therefore motivates the development of micro- and nanostructures for polarization control. For such control to be complete, one must distinguish not only between linear polarizations, but also between left- and right-circular polarizations. Some previous works used surface plasmons to th..
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Awarded by National Science Foundation
Funding Acknowledgements
This work was supported in part by the National Science Foundation (NSF, grants ECCS-1307561 and ECCS-1201687) and by the Defense Advanced Research Projects Agency (DARPA, grant W911NF-13-2-0015). Fabrication work was carried out in the Harvard Center for Nanoscale Systems, which is supported by the NSF. We thank Antony Orth and Wenqi Zhu from Harvard University for helpful discussions.