Experimental Characterization of Wavelength Separation for “QKD+WDM” Co-existence

N.I. Nweke; N.I. Nweke; P. Toliver; R. J. Runser; S. R. McNown; T. E. Chapuran; M. S. Goodman; R. J. Hughes; C. G. Peterson; K. McCabe; J. E. Nordholt; K. Tyagi; P. Hiskett; N. Dallmann

Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science and Photonic Applications Systems Technologies
Technical Digest (CD) (Optica Publishing Group, 2005),
paper CWO6

Experimental Characterization of Wavelength Separation for “QKD+WDM” Co-existence

N.I. Nweke, P. Toliver, R. J. Runser, S. R. McNown, T. E. Chapuran, M. S. Goodman, R. J. Hughes, C. G. Peterson, K. McCabe, J. E. Nordholt, K. Tyagi, P. Hiskett, and N. Dallmann

Conference on Lasers and Electro-Optics 2005

Baltimore, Maryland United States
22–27 May 2005
ISBN: 1-55752-770-9

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N. I. Nweke, P. Toliver, R. J. Runser, S. R. McNown, T. E. Chapuran, M. S. Goodman, R. J. Hughes, C. G. Peterson, K. McCabe, J. E. Nordholt, K. Tyagi, P. Hiskett, and N. Dallmann, "Experimental Characterization of Wavelength Separation for “QKD+WDM” Co-existence," in Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science and Photonic Applications Systems Technologies, Technical Digest (CD) (Optica Publishing Group, 2005), paper CWO6.

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Abstract

The minimum wavelength separation for multiplexing 1.3µm QKD with 1.5µm classical optical channels is experimentally determined for impairment-free QKD+WDM transmission.

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