Ren-Gang Wan scite author profile

We have investigated numerically the narrowband absorption property of a metal-dielectric-metal based structure which includes a top metallic nanoring arrays, a metal backed plate, and a middle dielectric spacer. Its absorption is up to 90% with linewidth narrower than 10 nm. This can be explained in terms of surface lattice resonance of the periodic structure. The spectrum with the sharp absorption dip, i.e. the lattice resonance, strongly depends on the refractive index of media surrounding the nanorings. This feature can be explored to devise a refractive index sensor, of which the bulk sensitivity factor is one order larger than that based on gap resonance mode, while the surface sensitivity factor can be two times larger. The proposed narrowband absorber has potential in applications of plasmonic biosensors.

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Electromagnetically induced grating via enhanced nonlinear modulation by spontaneously generated coherence

Wan

Kou

et al. 2011

Phys. Rev. A

114

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By investigating the third order nonlinearity of a four-level ladder-type atomic system, it is found that, with spontaneously generated coherence (SGC) present, the nonlinear absorption or refraction can be significantly enhanced with vanishing linear absorption. We attribute the enhancement of nonlinearity mainly to quantum interference in the two decay pathways from the two upper closely lying levels. With a standing-wave trigger field, absorption or phase grating, which effectively diffracts a weak probe into high-order direction, can be induced by the SGC enhanced absorptive or refractive nonlinear modulation. In contrast to the schemes for enhancing nonlinearity, no additional coupling field is required. Moreover, the present gratings result from the nonlinear modulation which differs from the recent investigations based on linear modulation.

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Two-dimensional atom localization via interacting double-dark resonances

Wan

Kou

et al. 2011

J. Opt. Soc. Am. B

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Two-dimensional sub-half-wavelength atom localization via phase control of absorption and gain

Wan

Zhang

Kou³

2013

Phys. Rev. A

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Ren-Gang Wan

Metal-dielectric-metal based narrow band absorber for sensing applications

Electromagnetically induced grating via enhanced nonlinear modulation by spontaneously generated coherence

Two-dimensional atom localization via interacting double-dark resonances

Two-dimensional sub-half-wavelength atom localization via phase control of absorption and gain

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