Wavelength-selective 1/spl times/K switches using free-space optics and MEMS micromirrors: theory, design, and implementation. Marom, D., Neilson, D., Greywall, D., Pai, C., Basavanhally, N., Aksyuk, V., Lopez, D., Pardo, F., Simon, M., Low, Y., Kolodner, P., & Bolle, C. Journal of Lightwave Technology, 23(4):1620–1630, April, 2005. Conference Name: Journal of Lightwave Technology
doi  abstract   bibtex   
The design and performance of several generations of wavelength-selective 1/spl times/K switches are reviewed. These optical subsystems combine the functionality of a demultiplexer, per-wavelength switch, and multiplexer in a single, low-loss unit. Free-space optics is utilized for spatially separating the constituent wavelength division multiplexing (WDM) channels as well as for space-division switching from an input optical fiber to one of K output fibers (1/spl times/K functionality) on a channel-by-channel basis using a microelectromechanical system (MEMS) micromirror array. The switches are designed to provide wide and flat passbands for minimal signal distortion. They can also provide spectral equalization and channel blocking functionality, making them well suited for use in transparent WDM optical mesh networks.
@article{marom_wavelength-selective_2005,
	title = {Wavelength-selective 1/spl times/{K} switches using free-space optics and {MEMS} micromirrors: theory, design, and implementation},
	volume = {23},
	issn = {1558-2213},
	shorttitle = {Wavelength-selective 1/spl times/{K} switches using free-space optics and {MEMS} micromirrors},
	doi = {10.1109/JLT.2005.844213},
	abstract = {The design and performance of several generations of wavelength-selective 1/spl times/K switches are reviewed. These optical subsystems combine the functionality of a demultiplexer, per-wavelength switch, and multiplexer in a single, low-loss unit. Free-space optics is utilized for spatially separating the constituent wavelength division multiplexing (WDM) channels as well as for space-division switching from an input optical fiber to one of K output fibers (1/spl times/K functionality) on a channel-by-channel basis using a microelectromechanical system (MEMS) micromirror array. The switches are designed to provide wide and flat passbands for minimal signal distortion. They can also provide spectral equalization and channel blocking functionality, making them well suited for use in transparent WDM optical mesh networks.},
	number = {4},
	journal = {Journal of Lightwave Technology},
	author = {Marom, D.M. and Neilson, D.T. and Greywall, D.S. and Pai, Chien-Shing and Basavanhally, N.R. and Aksyuk, V.A. and Lopez, D.O. and Pardo, F. and Simon, M.E. and Low, Y. and Kolodner, P. and Bolle, C.A.},
	month = apr,
	year = {2005},
	note = {Conference Name: Journal of Lightwave Technology},
	keywords = {Gratings, Microelectromechanical systems, Micromechanical devices, Micromirrors, Optical arrays, Optical design, Optical distortion, Optical fibers, Optical network units, Optical switches, Wavelength division multiplexing, microelectromechanical devices, microelectromechanical system (MEMS), optical add/drop multiplexing (OADM), optical filters, optical switches, wavelength-selective switch},
	pages = {1620--1630},
}
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