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21 results on '"Saado, Y."'

1. Energy and symmetry of ordered 2D clusters in a parabolic confinement

Author

Golosovsky, M., Saado, Y., and Davidov, D.

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Strongly Correlated Electrons
Abstract

We report an experimental study of 2D dipole clusters formed by small magnetic particles floating at the air-water interface. The particles form hexagonally ordered clusters due to interplay between dipole-dipole repulsion and confining external forces. Optical images of the clusters allow determination of area S, total energy E, and the chemical potential for different particle numbers N<130. Asymptotic expressions for E(N), S(N) account fairly well for the smooth part of our experimental results. However, on top of the smooth dependences we observe quasiperiodic fluctuations with dips at ``magic'' numbers corresponding to particularly symmetric cluster configurations. The magnitude and occurrence of these fluctuations are related to the symmetry of the cluster and to the center of mass position. This is in full agreement with the recent prediction of Koulakov and Shklovskii for Wigner crystal island., Comment: 4 pages, 4 GIF figures (shrinked), Latex

Published
2000

5. Photonic crystal superlattice employed as left-handed planoconcave lens.

Author

Saado, Y., Neve-Oz, Y., Golosovsky, M., Davidov, D., and Frenkel, A.

Subjects
*PHOTONICS, *SUPERLATTICES, *CRYSTALS, *RADIATION, *MICROWAVES, *BRILLOUIN zones, *DIELECTRICS
Abstract

We demonstrate focusing of the microwave radiation by a planoconcave lens based on photonic crystal superlattice. The superlattice consists of dielectric rods of two different diameters. The structural modulation results in a narrow transmission subband inside the band gap. The subband is characterized by a negative refractive index and high transmission efficiency. This negative refractive index arises from the Brillouin zone folding in the lattice with the composite unit cell. The full width at half maximum of the focal spot of our lens is 0.36λ×0.42λ, which is close to the Abbe limit, and the power enhancement is 2.2. [ABSTRACT FROM AUTHOR]

Published
2008
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6. Near-field focusing by a photonic crystal concave mirror.

Author

Saado, Y., Golosovsky, M., Davidov, D., and Frenkel, A.

Subjects
*NEAR-field microscopy, *CRYSTALS, *PHOTONICS, *ELECTRIC fields, *FIELD theory (Physics), *CRYSTALLOGRAPHY, *SCANNING probe microscopy
Abstract

We have studied the electric-field distribution in the photonic crystal (PC) concave mirror. This was done numerically and was verified in experiment. The field mapping in our experiments was performed using the Slater’s perturbation technique which was modified for nonresonant structures. The PC consists of a planar array of dielectric rods with a trapezoidal depression that forms the concave mirror. At the midgap frequency of the first stopband of the underlying photonic crystal, the mirror allows focusing to a subwavelength spot size of 0.2λ×0.2λ. The intensity is enhanced by 16 times at the focal point, as compared with the incident wave. [ABSTRACT FROM AUTHOR]

Published
2005
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8. ld focusing by a photonic crystal concave mirrorNear-fie

Author

Saado, Y., Golosovsky, M., Davidov, D., and Frenkel, A.

Subjects
Mirrors -- Research, Mirrors -- Observations, Crystals -- Research, Physics
Abstract

The electric-field distribution in the photonic crystal (PC) concave mirror was studied numerically and later verified in an experiment using the Slater's perturbation technique. The results emphasize that the focusing of the concave PC mirror arises both from the properties of the photonic crystal and from the shape of the mirror.

Published
2005

11. Performance of Ge/Si Receivers at 1310 nm

Author

Sarid, G., primary, Cohen, R., additional, Ginsburg, E., additional, Zadka, M., additional, Saado, Y., additional, Shniderman, R., additional, Morse, M., additional, Dosunmu, O., additional, Yin, T., additional, and Kang, Y., additional

Published
2008
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21. Self-assembly by floating magnetic particles into ordered structures: A promising route for the...

Author

Golosovsky, M., Saado, Y., and Davidov, D.

Subjects
*PARTICLES (Nuclear physics), *MAGNETISM
Abstract

Focuses on a stable ordered arrays of millimeter-size magnetic particles floating on a liquid surface. Self-assembly into a regular two-dimensional lattice; Lateral magnetic interactions between the particles; Implication for fabrication of tunable photonic band gap materials.

Published
1999
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