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Evaluation of Self-Collimated Beams in Photonic Crystals for Optical Interconnect

by Tsuyoshi Yamashita, Christopher J. Summers, Senior Member
"... Abstract—Self-collimated beams and photonic bandgap mirrors in photonic crystals are evaluated for applicability in an on-chip interconnect system. Simulations using the plane-wave expansion and finite-difference time-domain methods are utilized to design and evaluate the theoretical performance of ..."
Abstract - Cited by 2 (0 self) - Add to MetaCart
Abstract—Self-collimated beams and photonic bandgap mirrors in photonic crystals are evaluated for applicability in an on-chip interconnect system. Simulations using the plane-wave expansion and finite-difference time-domain methods are utilized to design and evaluate the theoretical performance

Self-collimation and beam splitting in chalcogenide glass and

by Aaron Matthews, Steven Morrison, Yuri S. Kivshar
"... photopolymer photonic crystals ..."
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photopolymer photonic crystals

Analysis of self-collimation based cavity resonator formed by photonic crystal

by N. Yogesh, V. Subramanian - Progress In Electromagnetics Research M
"... Abstract—The self-collimation effect in photonic crystal is used for the realization of open cavity resonator formed by photonic prisms in a four-port arrangement. The confinement, field enhancement and energy storage capabilities of the proposed cavity are explored in this paper. The effect of diel ..."
Abstract - Cited by 1 (1 self) - Add to MetaCart
Abstract—The self-collimation effect in photonic crystal is used for the realization of open cavity resonator formed by photonic prisms in a four-port arrangement. The confinement, field enhancement and energy storage capabilities of the proposed cavity are explored in this paper. The effect

Polarization-independent self-collimating bends and beam splitters in photonic crystals

by Xiaopeng Shen, Kui Han, Xianqing Yang, Yifeng Shen, Haipeng Li, Gang Tang, Zhitian Guo , 2007
"... Polarization independent bends and beam splitters for transverse electric (TE) and transverse magnetic (TM) polarizations have been demonstrated in two-dimensional (2D) photonic crystals (PhCs). In virtuel of equi-frequency contour analysis and finite-difference time-domain calculations, self-collim ..."
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Polarization independent bends and beam splitters for transverse electric (TE) and transverse magnetic (TM) polarizations have been demonstrated in two-dimensional (2D) photonic crystals (PhCs). In virtuel of equi-frequency contour analysis and finite-difference time-domain calculations, self-collimation

Wireless sensor networks: a survey

by I. F. Akyildiz, W. Su, Y. Sankarasubramaniam, E. Cayirci , 2002
"... This paper describes the concept of sensor networks which has been made viable by the convergence of microelectro-mechanical systems technology, wireless communications and digital electronics. First, the sensing tasks and the potential sensor networks applications are explored, and a review of fact ..."
Abstract - Cited by 1936 (23 self) - Add to MetaCart
This paper describes the concept of sensor networks which has been made viable by the convergence of microelectro-mechanical systems technology, wireless communications and digital electronics. First, the sensing tasks and the potential sensor networks applications are explored, and a review of factors influencing the design of sensor networks is provided. Then, the communication architecture for sensor networks is outlined, and the algorithms and protocols developed for each layer in the literature are explored. Open research issues for the realization of sensor networks are

FAST VOLUME RENDERING USING A SHEAR-WARP FACTORIZATION OF THE VIEWING TRANSFORMATION

by Philippe G. Lacroute , 1995
"... Volume rendering is a technique for visualizing 3D arrays of sampled data. It has applications in areas such as medical imaging and scientific visualization, but its use has been limited by its high computational expense. Early implementations of volume rendering used brute-force techniques that req ..."
Abstract - Cited by 541 (2 self) - Add to MetaCart
Volume rendering is a technique for visualizing 3D arrays of sampled data. It has applications in areas such as medical imaging and scientific visualization, but its use has been limited by its high computational expense. Early implementations of volume rendering used brute-force techniques that require on the order of 100 seconds to render typical data sets on a workstation. Algorithms with optimizations that exploit coherence in the data have reduced rendering times to the range of ten seconds but are still not fast enough for interactive visualization applications. In this thesis we present a family of volume rendering algorithms that reduces rendering times to one second. First we present a scanline-order volume rendering algorithm that exploits coherence in both the volume data and the image. We show that scanline-order algorithms are fundamentally more efficient than commonly-used ray casting algorithms because the latter must perform analytic geometry calculations (e.g. intersecting rays with axis-aligned boxes). The new scanline-order algorithm simply streams through the volume and the image in storage order. We describe variants of the algorithm for both parallel and perspective projections and

www.elsevier.com/locate/optcom Self-collimation and beam splitting in low-index photonic crystals

by Aaron F. Matthews, Steven K. Morrison, Yuri S. Kivshar
"... We study self-collimation and beam splitting in low-refractive-index photonic crystals created within chalcogenide glass. We propose a beam splitter structure that allows direct experimental verification of photonic-crystal effects at optical wavelengths in a straightforward and definitive manner. T ..."
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We study self-collimation and beam splitting in low-refractive-index photonic crystals created within chalcogenide glass. We propose a beam splitter structure that allows direct experimental verification of photonic-crystal effects at optical wavelengths in a straightforward and definitive manner

Waveguiding in planar photonic crystals

by Jeremy Witzens, Axel Scherer - Appl. Phys. Lett , 2000
"... Abstract—We analyze, in three dimensions, the dispersion prop-erties of dielectric slabs perforated with two-dimensional photonic crystals (PCs) of square symmetry. The band diagrams are calcu-lated for all-vectors in the first Brillouin zone, and not only along the characteristic high-symmetry dire ..."
Abstract - Cited by 37 (2 self) - Add to MetaCart
-symmetry directions. We have analyzed the equal-frequency contours of the first two bands, and we found that the square lattice planar photonic crystal is a good candidate for the self-collimation of light beams. We map out the group veloc-ities for the second band of a square lattice planar PC and show

published in Journal of the Optical Society of America B

by Author(s Jiang, Liyong Wu, Hong Li, X. Polarization-insensitive, Liyong Jiang, Hong Wu, Xiangyin Li , 2013
"... Title Polarization-insensitive self-collimation and beam splitterbased on triangular-lattice annular photonic crystals. ..."
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Title Polarization-insensitive self-collimation and beam splitterbased on triangular-lattice annular photonic crystals.

Photonic crystal fibers

by Philip Russell - Science , 2003
"... Photonic crystal fibers guide light by corralling it within a periodic array of microscopic air holes that run along the entire fiber length. Largely through their ability to overcome the limitations of conventional fiber optics—for example, by permitting low-loss guidance of light in a hollow core— ..."
Abstract - Cited by 107 (0 self) - Add to MetaCart
Photonic crystal fibers guide light by corralling it within a periodic array of microscopic air holes that run along the entire fiber length. Largely through their ability to overcome the limitations of conventional fiber optics—for example, by permitting low-loss guidance of light in a hollow core
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