P. D. Flammer scite author profile

We present simulation and experimental results for easily fabricated spiral plasmonic antenna analogues providing circular polarization selectivity. One circular polarization state is concentrated and transmitted through a subwavelength aperture, while the opposite circular state is blocked. The spectral bandwidth, efficiency, and extinction ratios are tunable through geometric parameters. Integration of such structures onto a focal plane array in conjunction with linear micropolarizers enables complete Stokes vector imaging, that, until now, has been difficult to achieve. An array of these structures forms a plasmonic metamaterial that exhibits high circular dichroism.

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Hybrid plasmon/dielectric waveguide for integrated silicon-on-insulator optical elements

Flammer¹,

Banks²,

Furtak³

et al. 2010

Opt. Express

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VLSI compatible optical waveguides on silicon are currently of particular interest in order to integrate optical elements onto silicon chips, and for possible replacements of electrical cross-chip/inter-core interconnects. Here we present simulation and experimental verification of a hybrid plasmon/dielectric, single-mode, single-polarization waveguide for silicon-on-insulator wafers. Its fabrication is compatible with VLSI processing techniques, and it possesses desirable properties such as the absence of birefringence and low sensitivity to surface roughness and metallic losses. The waveguide structure naturally forms an MOS capacitor, possibly useful for active device integration. Simulations predict very long propagation lengths of millimeter scale with micron scale confinement, or sub-micron scale confinement with propagation lengths still in excess of 100 microns. The waveguide may be tuned continuously between these states using standard VLSI processing. Extremely long propagation lengths have been simulated: one configuration presented here has a simulated propagation length of 34 cm.

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Interference and resonant cavity effects explain enhanced transmission through subwavelength apertures in thin metal films

Flammer¹,

Schick²,

Collins³

et al. 2007

Opt. Express

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Transmission through an opaque Au film with a single subwavelength aperture centered in a smooth cavity between linear grating structures is studied experimentally and with a finite element model. The model is in good agreement with measured results and is used to investigate local field behavior. It shows that a surface plasmon polariton (SPP) is launched along the metal surface, while interference of the SPP with the incident light along with resonant cavity effects give rise to suppression and enhancement in transmission. Based on experimental and modeling results, peak location and structure of the enhancement/suppression bands are explained analytically, confirming the primary role of SPPs in enhanced transmission through small apertures in opaque metal films.

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Integral equations applied to wave propagation in two dimensions: modeling the tip of a near-field scanning optical microscope

et al. 2001

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We present a Green's-function/Green's-theorem integral equation approach to numerically modeling two-dimensional, s-polarized, wave propagation problems effectively for a variety of geometries. The model accurately calculates both near fields and far fields because of the minimal assumptions made on the behavior of the scattered radiation. The method was applied to modeling light emission from a near-field scanning optical microscope fiber tip. Several convergence and energy tests were used to give confidence in the results. The behavior of intensity and power near the tip was investigated. The effects of changing the dielectric constant of a sample material located below the tip were also examined.

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Plasmonic micropolarizers for full Stokes vector imaging

Peltzer

Bachman

Rose

et al. 2012

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P. D. Flammer

Spiral plasmonic nanoantennas as circular polarization transmission filters

Hybrid plasmon/dielectric waveguide for integrated silicon-on-insulator optical elements

Interference and resonant cavity effects explain enhanced transmission through subwavelength apertures in thin metal films

Integral equations applied to wave propagation in two dimensions: modeling the tip of a near-field scanning optical microscope

Plasmonic micropolarizers for full Stokes vector imaging

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