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1.
Nano Lett ; 13(11): 5391-6, 2013.
Artigo em Inglês | MEDLINE | ID: mdl-24124754

RESUMO

We present a new type of electrically tunable strong coupling between planar metamaterials and epsilon-near-zero modes that exist in a doped semiconductor nanolayer. The use of doped semiconductors makes this strong coupling tunable over a wide range of wavelengths through the use of different doping densities. We also modulate this coupling by depleting the doped semiconductor layer electrically. Our hybrid approach incorporates strong optical interactions into a highly tunable, integrated device platform.


Assuntos
Nanoestruturas/química , Óptica e Fotônica/instrumentação , Semicondutores , Luz , Óptica e Fotônica/métodos , Refratometria , Espalhamento de Radiação
2.
Opt Express ; 21(6): 6837-44, 2013 Mar 25.
Artigo em Inglês | MEDLINE | ID: mdl-23546065

RESUMO

We simulate, fabricate, and characterize near perfectly absorbing two-dimensional grating structures in the thermal infrared using heavily doped silicon (HdSi) that supports long wave infrared surface plasmon polaritons (LWIR SPP's). The devices were designed and optimized using both finite difference time domain (FDTD) and rigorous coupled wave analysis (RCWA) simulation techniques to satisfy stringent requirements for thermal management applications requiring high thermal radiation absorption over a narrow angular range and low visible radiation absorption over a broad angular range. After optimization and fabrication, characterization was performed using reflection spectroscopy and normal incidence emissivity measurements. Excellent agreement between simulation and experiment was obtained.


Assuntos
Calefação/instrumentação , Silício/química , Silício/efeitos da radiação , Transdutores , Transferência de Energia , Desenho de Equipamento , Análise de Falha de Equipamento , Raios Infravermelhos
3.
Nano Lett ; 11(2): 338-42, 2011 Feb 09.
Artigo em Inglês | MEDLINE | ID: mdl-21214167

RESUMO

We demonstrate strong coupling between a surface plasmon and intersublevel transitions in self-assembled InAs quantum dots. The surface plasmon mode exists at the interface between the semiconductor emitter structure and a periodic array of holes perforating a metallic Pd/Ge/Au film that also serves as the top electrical contact for the emitters. Spectrally narrowed quantum-dot electroluminescence was observed for devices with varying subwavelength hole spacing. Devices designed for 9, 10, and 11 µm wavelength emission also exhibit a significant spectral splitting. The association of the splitting with quantum-dot Rabi oscillation is consistent with results from a calculation of spontaneous emission from an interacting plasmonic field and quantum-dot ensemble. The fact that this Rabi oscillation can be observed in an incoherently excited, highly inhomogeneously broadened system demonstrates the utility of intersublevel transitions in quantum dots for investigations of coherent transient and quantum coherence phenomena.


Assuntos
Arsenicais/química , Arsenicais/efeitos da radiação , Índio/química , Índio/efeitos da radiação , Medições Luminescentes/instrumentação , Pontos Quânticos , Ressonância de Plasmônio de Superfície/instrumentação , Condutividade Elétrica , Campos Eletromagnéticos , Desenho de Equipamento , Análise de Falha de Equipamento , Luz , Espalhamento de Radiação
4.
Nat Nanotechnol ; 10(12): 1033-8, 2015 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-26414194

RESUMO

Direct rectification of electromagnetic radiation is a well-established method for wireless power conversion in the microwave region of the spectrum, for which conversion efficiencies in excess of 84% have been demonstrated. Scaling to the infrared or optical part of the spectrum requires ultrafast rectification that can only be obtained by direct tunnelling. Many research groups have looked to plasmonics to overcome antenna-scaling limits and to increase the confinement. Recently, surface plasmons on heavily doped Si surfaces were investigated as a way of extending surface-mode confinement to the thermal infrared region. Here we combine a nanostructured metallic surface with a heavily doped Si infrared-reflective ground plane designed to confine infrared radiation in an active electronic direct-conversion device. The interplay of strong infrared photon-phonon coupling and electromagnetic confinement in nanoscale devices is demonstrated to have a large impact on ultrafast electronic tunnelling in metal-oxide-semiconductor (MOS) structures. Infrared dispersion of SiO2 near a longitudinal optical (LO) phonon mode gives large transverse-field confinement in a nanometre-scale oxide-tunnel gap as the wavelength-dependent permittivity changes from 1 to 0, which leads to enhanced electromagnetic fields at material interfaces and a rectified displacement current that provides a direct conversion of infrared radiation into electric current. The spectral and electrical signatures of the nanoantenna-coupled tunnel diodes are examined under broadband blackbody and quantum-cascade laser (QCL) illumination. In the region near the LO phonon resonance, we obtained a measured photoresponsivity of 2.7 mA W(-1) cm(-2) at -0.1 V.

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