121 research outputs found
Beaming of light and enhanced transmission via surface modes of photonic crystals
Cataloged from PDF version of article.We report beaming and enhanced transmission of electromagnetic waves by use of surface corrugated photonic
crystals. The modes of a finite-size photonic crystal composed of dielectric rods in free space have been
analyzed by the plane-wave expansion method. We show the existence of surface propagating modes when
the surface of the finite-size photonic crystal is corrugated. We theoretically and experimentally demonstrate
that the transmission through photonic crystal waveguides can be substantially increased by the existence
of surface propagating modes at the input surface. In addition, the power emitted from the photonic crystal
waveguide is confined to a narrow angular region when an appropriate surface corrugation is added to the
output surface of the photonic crystal. © 2005 Optical Society of Americ
Focusing surface plasmons via changing the incident angle
Cataloged from PDF version of article.We report a circular metallic aperture with a subwavelength circular slit in the microwave regime, in which we experimentally demonstrate that this aperture can excite and focus surface plasmons. Under normal illumination, there is no focusing of the surface plasmons. However, by changing the incident angle, it is possible to focus surface plasmons. We showed that under a 20 degrees illumination angle surface plasmons focus at 4 cm away from the center on the surface of the aperture. (C) 2008 American Institute of Physics
Highly directive radiation from sources embedded inside photonic crystals
Cataloged from PDF version of article.In this work, we have experimentally and theoretically studied the angular distribution of power emitted from a radiation source embedded inside a photonic crystal. Our results show that it is possible to obtain highly directive radiation sources operating at the band edge of the photonic crystal. Half power beam widths as small as 6degrees have been obtained. Our results also show that the angular distribution of power strongly depends on the frequency and on the size of the photonic crystal. (C) 2003 American Institute of Physics
Subwavelength resolution with a negative-index metamaterial superlens
Cataloged from PDF version of article.Negative-index metamaterials are candidates for imaging objects with sizes smaller than a half-wavelength. The authors report an impedance-matched, low loss negative-index metamaterial superlens that is capable of resolving subwavelength features of a point source with a 0.13 lambda resolution, which is the highest resolution achieved by a negative-index metamaterial. By separating two point sources with a distance of lambda/8, they were able to detect two distinct peaks on the image plane. They also showed that the metamaterial based structure has a flat lens behavior. (c) 2007 American Institute of Physics
Off-axis beaming from subwavelength apertures
Cataloged from PDF version of article.Photonic crystal waveguides and metallic subwavelength apertures are promising tools for light manipulation. It is possible to obtain enhanced directional beams by using these structures via coupling to surface waves. In addition, these apertures can be designed to steer such directional beams by introducing asymmetrical gratings on the output surface. In the present paper, we report directional yet off-axis beaming from subwavelength apertures at microwave frequencies. The full width at half maximum of the beam is 10 degrees while the beaming angle is 15 degrees. Our results show that it is possible to steer the beam by the appropriate modification of the output surface. (C) 2008 American Institute of Physics. [DOI: 10.1063/1.2990063
Experimental demonstration of subwavelength focusing of electromagnetic waves by labyrinth-based two-dimensional metamaterials
Cataloged from PDF version of article.We studied focusing in a two-dimensional metamaterial that was based on a labyrinth structure. We theoretically showed that the labyrinth-based metamaterial exhibits negative indices of refraction between 6 and 6.4 GlIz. We experimentally studied the focusing effect by measuring electric field intensities on the output side of the metamaterial when the source was placed in front of the input side of the metamaterial. Our experimental results showed that it is in fact possible to focus the source field with half-widths as small as lambda/4 by using the labyrinth-based metamaterial. (c) 2006 Optical Society of America
Observation of coupled-cavity structures in metamaterials
Cataloged from PDF version of article.In this letter, we investigated the transmission properties of metamaterial based coupled-cavity structures. We first calculated the effective parameters of a split-ring resonator (SRR) and composite metamaterial (CMM) structures. Subsequently, we introduced coupled-cavity structures and presented the transmission spectrum of SRR and CMM based coupled-cavity structures. The splitting of eigenmodes was observed due to the interaction between the localized electromagnetic cavity modes. Finally, the dispersion relation and normalized group velocity of the coupled-cavity structures were calculated. The maximum group velocity was found to be 100 times smaller than the speed of light in vacuum. (C) 2008 American Institute of Physics
Investigation of localized coupled-cavity modes in two-dimensional photonic band gap structures
Cataloged from PDF version of article.We present a detailed study of the localized
coupled-cavity modes in 2-D dielectric photonic crystals. The
transmission, phase, and delay time characteristics of the various
coupled-cavity structures are measured and calculated. We observed
the eigenmode splitting, waveguiding through the coupled
cavities, splitting of electromagnetic waves in waveguide ports,
and switching effect in such structures. The corresponding field
patterns and the transmission spectra are obtained from the finite-difference-time-domain
(FDTD) simulations. We also develop
a theory based on the classical wave analog of the tight-binding
(TB) approximation in solid state physics. Experimental results
are in good agreement with the FDTD simulations and predictions
of the TB approximation
Experimental observation of cavity formation in composite metamaterials
Cataloged from PDF version of article.In this paper, we investigated one of the promising applications of left-handed metamaterials: composite metamaterial based cavities. Four different cavity structures operating in the microwave regime were constructed, and we observed cavity modes on the transmission spectrum with different quality factors. The effective permittivity and permeability of the CMM structure and cavity structure were calculated by use of a retrieval procedure. Subsequently, in taking full advantage of the effective medium theory, we modeled CMM based cavities as one dimensional Fabry-Perot resonators with a subwavelength cavity at the center. We calculated the transmission from the Fabry-Perot resonator model using the one-dimensional transfer matrix method, which is in good agreement with the measured result. Finally, we investigated the Fabry-Perot resonance phase condition for a CMM based cavity, in which the condition was satisfied at the cavity frequency. Therefore, our results show that it is possible to treat metamaterial based cavities as one-dimensional Fabry-Perot resonators with a subwavelength cavity.
©2008 Optical Society of America
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