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Conferences > FiO > 2012 > FTh2A > FTh2A.2

Plasmonic Nanolasers Without Cavity, Threshold and Diffraction Limit using Stopped Light

Kosmas L. Tsakmakidis, Joachim M. Hamm, Tim W. Pickering, and Ortwin Hess

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Abstract

We present a plasmonic waveguide where light pulses are stopped at well-accessed complex-frequency zero-group-velocity points. Introducing gain at such points results in cavity-free, “thresholdless” nanolasers beating the diffraction limit via a novel, stopped-light mode-locking mechanism.

© 2012 Optical Society of America

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Plasmonic Stopped-Light Lasing: From Cavity-Free Nanolasing to Nonlinear-Self-Structuring in Surface-Plasmon Polariton Condensation

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