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• W2212762887 startingPage "1081" @default.
• W2212762887 abstract "Heterogeneous crystalline semiconductor nanomembrane (NM) integration is investigated for single-layer and double-layer Silicon (Si) NM photonics, III-V/Si NM lasers, and graphene/Si NM total absorption devices. Both homogeneous and heterogeneous integration are realized by the versatile transfer printing technique. The performance of these integrated membrane devices shows, not only intact optical and electrical characteristics as their bulk counterparts, but also the unique light and matter interactions, such as Fano resonance, slow light, and critical coupling in photonic crystal cavities. Such a heterogeneous integration approach offers tremendous practical application potentials on unconventional, Si CMOS compatible, and high performance optoelectronic systems." @default.
• W2212762887 created "2016-06-24" @default.
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• W2212762887 date "2015-11-13" @default.
• W2212762887 modified "2023-10-18" @default.
• W2212762887 title "Transfer Printed Nanomembranes for Heterogeneously Integrated Membrane Photonics" @default.
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• W2212762887 doi "https://doi.org/10.3390/photonics2041081" @default.
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