K
Kyriakos Vlachos
Researcher at University of Patras
Publications - 127
Citations - 1936
Kyriakos Vlachos is an academic researcher from University of Patras. The author has contributed to research in topics: Optical burst switching & Optical switch. The author has an hindex of 26, co-authored 127 publications receiving 1875 citations. Previous affiliations of Kyriakos Vlachos include National Technical University of Athens & Alcatel-Lucent.
Papers
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Journal ArticleDOI
Label-free biosensing with high sensitivity in dual-core microstructured polymer optical fibers
TL;DR: Numerical calculations indicate a record sensitivity up to 20 nm/nm (defined as the shift in the resonance wavelength per nm biolayer) at visible wavelengths, where the mPOF has low loss.
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All-optical signal Processing and applications within the esprit project DO/spl I.bar/ALL
T. Houbavlis,Kyriakos E. Zoiros,M. Kalyvas,G. Theophilopoulos,C. Bintjas,Konstantinos Yiannopoulos,Nikos Pleros,Kyriakos Vlachos,Hercules Avramopoulos,Laurent Schares,L. Occhi,G. Guekos,James Taylor,S. Hansmann,W. Miller +14 more
TL;DR: This paper reviews the work performed under the European ESPRIT project DO/spl I.bar/ALL (Digital OpticAL Logic modules) spanning from advanced devices to all-optical modules and from optical signal processing subsystems to their integration in the application level for the demonstration of nontrivial logic functionality.
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STOLAS: switching technologies for optically labeled signals
TL;DR: A suitable optical label-controlled switch design is proposed that takes advantage of these novel labeling techniques, and efficiently combines widely tunable, fast switching lasers and SOA-MZI wavelength converters with an arrayed waveguide grating router.
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Bending loss and thermo-optic effect of a hybrid PDMS/silica photonic crystal fiber
TL;DR: Numerical simulations and experimental measurements were carried out to investigate the fundamental TIR-based guiding mechanism of the hybrid PDMS/silica PCF in terms of effective index, effective modal area and loss.
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10 x 30 GHz pulse train generation from semiconductor amplifier fiber ring laser
TL;DR: In this article, a multiwavelength, fiber ring laser source is demonstrated, which generates 10 wavelength channels, simultaneously mode-locked and synchronized at 30 GHz, each producing 7-ps pulses.