3.125 Gb/s Impulse Radio Ultra-Wideband Photonic Generation and Distribution Over a 50 km Fiber With Wireless Transmission |
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| Authors: | Gibbon T. B. Yu X. Gamatham R. Gonzalez N. G. Rodes R. Jensen J. B. Caballero A. Monroy I. T. |
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| Affiliation: | Department of Photonics Engineering, Technical University of Denmark, Kgs. Lygnby, Denmark; |
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| Abstract: | A 3.125 Gb/s photonic impulse radio ultra-wideband signal is created using the incoherent optical field summation resulting from the cross gain modulation of an uncooled distributed feedback laser injected with an external cavity laser. After 50 km of fiber and wireless transmission over 2.9–3.3-m, successful detection using a digital signal processing receiver is achieved. |
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