TY - JOUR
T1 - Ultralow-light-level color image reconstruction using high-efficiency plasmonic metasurface mosaic filters
AU - Shah, Yash D.
AU - Connolly, Peter W. R.
AU - Grant, James P.
AU - Hao, Danni
AU - Accarino, Claudio
AU - Ren, Ximing
AU - Kenney, Mitchell
AU - Annese, Valerio
AU - Rew, Kirsty G.
AU - Greener, Zoë M.
AU - Altmann, Yoann
AU - Faccio, Daniele
AU - Buller, Gerald S.
AU - Cumming, David R. S.
PY - 2020/6/20
Y1 - 2020/6/20
N2 - As single-photon imaging becomes progressively more commonplace in sensing applications such as low-light-level imaging, three-dimensional profiling, and fluorescence imaging, there exist a number of fields where multispectral information can also be exploited, e.g., in environmental monitoring and target identification. We have fabricated a high-transmittance mosaic filter array, where each optical filter was composed of a plasmonic metasurface fabricated in a single lithographic step. This plasmonic metasurface design utilized an array of elliptical and circular nanoholes, which produced enhanced optical coupling between multiple plasmonic interactions. The resulting metasurfaces produced narrow bandpass filters for blue, green, and red light with peak transmission efficiencies of 79%, 75%, and 68%, respectively. After the three metasurface filter designs were arranged in a 64 × 64 format random mosaic pattern, this mosaic filter was directly integrated onto a CMOS single-photon avalanche diode detector array. Color images were then reconstructed at light levels as low as approximately 5 photons per pixel, on average, via the simultaneous acquisition of low-photon multispectral data using both three-color active laser illumination and a broadband white-light illumination source.
AB - As single-photon imaging becomes progressively more commonplace in sensing applications such as low-light-level imaging, three-dimensional profiling, and fluorescence imaging, there exist a number of fields where multispectral information can also be exploited, e.g., in environmental monitoring and target identification. We have fabricated a high-transmittance mosaic filter array, where each optical filter was composed of a plasmonic metasurface fabricated in a single lithographic step. This plasmonic metasurface design utilized an array of elliptical and circular nanoholes, which produced enhanced optical coupling between multiple plasmonic interactions. The resulting metasurfaces produced narrow bandpass filters for blue, green, and red light with peak transmission efficiencies of 79%, 75%, and 68%, respectively. After the three metasurface filter designs were arranged in a 64 × 64 format random mosaic pattern, this mosaic filter was directly integrated onto a CMOS single-photon avalanche diode detector array. Color images were then reconstructed at light levels as low as approximately 5 photons per pixel, on average, via the simultaneous acquisition of low-photon multispectral data using both three-color active laser illumination and a broadband white-light illumination source.
UR - http://www.scopus.com/inward/record.url?scp=85086852661&partnerID=8YFLogxK
U2 - 10.1364/OPTICA.389905
DO - 10.1364/OPTICA.389905
M3 - Article
AN - SCOPUS:85086852661
SN - 2334-2536
VL - 7
SP - 632
EP - 639
JO - Optica
JF - Optica
IS - 6
ER -