A scalable, fully provisioned 112x112 micro-mechanical optical cross connect with mean insertion loss of 7.5dB @1550nm into single-mode optical fiber and 10ms switching speed is presented.
The Stern-Gerlach magnetic deflection spectra of a molecular beam of O sub 2 cooled by supersonic expansion to its lowest rotational level (K=1) reveals nine spatially separated peaks within a span
We report on a fully functional 2.5 Gb/s EA-modulated wavelength-selectable laser module meeting all long-haul transmission requirements for stability, chirp, power and linewidth over 20 channels o
We demonstrate a fully-connectorized and packaged, 2X1 high- speed TiLiNbO(3) directional coupler switch suitable for both optical time-division multiplexing/demultiplexing and modulation at 1.3mic
Thin film fully-depleted Silicon-on-Insulator (SOI) CMOS technology can achieve a maximum oscillation frequency fmax of 50 GHz for 1V supply voltage, when TiSi2 is used on the gate.
Wireless Local Area Network (WLAN) applications are currently available at 900 MHz and 2.4 GHz.
We demonstrate, for the first time, fully-passive, optical packaging of a 9-channel array of surface-normal electroabsorption modulators to arrays of standard single-mode fibers.
We propose a constructive approach to building single-hidden-layer neural networks for nonlinear function approximation using frequency domain analysis.
Biology provides a multitude of varied, new paradigms for the development of adaptive optical networks[1-4].
Future Internet (FI) constitutes a complex, highly decentralized and dynamic environment of resources and systems, which imperils the network stability, jeopardizing the network performance and com
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