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Chip-scale Full-Stokes Spectropolarimeter in Silicon Photonic Circuits

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arxiv 2002.02062 v1 pith:Q5JSEEVU submitted 2020-02-06 physics.optics physics.app-phquant-ph

Chip-scale Full-Stokes Spectropolarimeter in Silicon Photonic Circuits

classification physics.optics physics.app-phquant-ph
keywords full-stokesanalysischip-scaledeviceproposedsiliconspectralspectropolarimeter
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Wavelength-dependent polarization state of light carries crucial information about light-matter interactions. However, its measurement is limited to bulky, energy-consuming devices, which prohibits many modern, portable applications. Here, we propose and demonstrate a chip-scale spectropolarimeter implemented using a CMOS-compatible silicon photonics technology. Four compact Vernier microresonator spectrometers are monolithically integrated with a broadband polarimeter consisting of a 2D nanophotonic antenna and a polarimetric circuit to achieve full-Stokes spectropolarimetric analysis. The proposed device offers a solid-state spectropolarimetry solution with a small footprint of 1*0.6 mm2 and low power consumption of 360 mW}. Full-Stokes spectral detection across a broad spectral range of 50 nm with a resolution of 1~nm is demonstrated in characterizing a material possessing structural chirality. The proposed device may enable a broader application of spectropolarimetry in the fields ranging from biomedical diagnostics and chemical analysis to observational astronomy.

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