Micromechanics-based wavelength-sensitive photonic beam control architectures and applications.

Abstract

Micromechanics-based wavelength-sensitive photonic delay and amplitude control modules are introduced for multiwavelength photonic applications such as hardware-compressed beam forming in phased-array antennas, timing-error compensation in high-speed long-haul fiber-optic communication networks, and pulse synchronization in photonic analog-to-digital… (More)

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Cite this paper

@article{Riza2000MicromechanicsbasedWP, title={Micromechanics-based wavelength-sensitive photonic beam control architectures and applications.}, author={Nabeel A. Riza and Sarun Sumriddetchkajorn}, journal={Applied optics}, year={2000}, volume={39 6}, pages={919-32} }