Journal
ADVANCED OPTICAL MATERIALS
Volume 5, Issue 2, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adom.201600506
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Funding
- National Natural Science Foundation China [11474057, 11404063, 61372034, 61501499, 11674068, 11604167]
- MOE of China [B06011]
- Shanghai Science and Technology Committee [14PJ1401200, 16ZR1445200, 16JC1403100]
- Natural Science Foundation of Shaanxi province [2016JM6063, 2016JQ6001]
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Achieving multiple diversified functionalities in a single flat device is crucial for electromagnetic (EM) integration, but available efforts suffer the issues of device thickness, low efficiency, and restricted functionalities. Here, a general strategy to design high-efficiency bifunctional devices based on metasurfaces composed by anisotropic meta-atoms with polarization-dependent phase responses is described. Based on the derived general criterions, two bifunctional metadevices, working in reflection and transmission modes, respectively, that can realize two distinct functionalities with very high efficiencies (approximate to 90% in reflection geometry and approximate to 72% in transmission one) are designed and fabricated. Microwave experiments, including both far-field and near-field characterizations, are performed to demonstrate the predicted effects, which are in excellent agreement with numerical simulations. The findings in this study can motivate the realizations of high-performance bifunctional metadevices in other frequency domains and with different functionalities, which are of crucial importance in EM integration.
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