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arxiv: 2011.06371 · v1 · pith:QJU545IJ · submitted 2020-10-28 · physics.optics · physics.app-ph

Inverse Designed THz Spectral Splitters

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classification physics.optics physics.app-ph
keywords broadbanddesigndesigneddiffractiveincidentinverselow-costspectral
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This letter reports proof-of-principle demonstration of 3D printable, low-cost, and compact THz spectral splitters based on diffractive optical elements (DOEs) designed to disperse the incident collimated broadband THz radiation (0.5 THz - 0.7 THz) at a pre-specified distance. Via inverse design, we show that it is possible to design such a diffractive optic, which can split the broadband incident spectrum in any desired fashion, as is evidenced from both FDTD simulations and measured intensity profiles using a 500-750 GHz VNA. Due to its straightforward construction without the usage of any movable parts, our approach, in principle, can have various applications such as in portable, low-cost spectroscopy as well as in wireless THz communication systems as a THz demultiplexer.

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