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Abstract Metasurface has emerged as a powerful platform for controlling light at subwavelength thickness, enabling new functionalities for imaging, polarization manipulation, and angular momentum conversion within a flat surface. An integrated asymmetric metasurface simultaneously achieving broadband, low loss forward power transmission, and significant back reflection suppression in multi‐mode waveguides is explored. The tapering along the direction of light propagation leads to low loss and space‐efficient mode conversion. Enhanced by a double‐flipped structure, a thin (2.5 µm) metasurface can simultaneously achieve high conversion efficiency (>80%), and back‐reflection efficiency of 90% over a 200 nm wavelength range. Such single‐side reflectors can be one of the enabling components for gain‐integrated adaptive optics on a chip.
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Goswami, Aranya; Markman, Brian; Brunelli, Simone T.; Chatterjee, Shouvik; Klamkin, Jonathan; Rodwell, Mark; Palmstrøm, Chris J. (, Journal of Applied Physics)null (Ed.)
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Zhao, Hongwei; Zhang, Ran; Chorsi, Hamid T.; Britton, Wesley A.; Chen, Yuyao; Iyer, Prasad P.; Schuller, Jon A.; Negro, Luca Dal; Klamkin, Jonathan (, Nanophotonics)Abstract In this work, reconfigurable metafilm absorbers based on indium silicon oxide (ISO) were investigated. The metafilm absorbers consist of nanoscale metallic resonator arrays on metal-insulator-metal (MIM) multilayer structures. The ISO was used as an active tunable layer embedded in the MIM cavities. The tunable metafilm absorbers with ISO were then fabricated and characterized. A maximum change in the reflectance of 57% and up to 620 nm shift in the resonance wavelength were measured.more » « less
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Zhao, Hongwei; Zhang, Ran; Chorsi, Hamid T.; Britton, Wesley; Chen, Yuyao; Iyer, Prasad P.; Schuller, Jon A.; Negro, Luca Dal; Klamkin, Jonathan (, Advanced Photonics Congress, Novel Optical Materials and Applications 2019)The conference was held in Burlingame, California United States 29 July–1 August 2019.more » « less
