Optical wavelength conversion of high bandwidth phase-encoded signals in a high FOM 50cm CMOS compatible waveguide

Brent E. Little; Darko Zibar; David J. Moss; Edson Porto da Silva; Francesco Da Ros; Leif K. Oxenl{\o}we; Michael Galili; Roberto Morandotti; Sai T. Chu

arxiv: 1808.06532 · v1 · pith:FAUYVB33new · submitted 2018-08-08 · ⚛️ physics.app-ph · eess.SP· physics.optics

Optical wavelength conversion of high bandwidth phase-encoded signals in a high FOM 50cm CMOS compatible waveguide

Francesco Da Ros , Edson Porto da Silva , Darko Zibar , Sai T. Chu , Brent E. Little , Roberto Morandotti , Michael Galili , David J. Moss

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Leif K. Oxenl{\o}we

This is my paper

classification ⚛️ physics.app-ph eess.SPphysics.optics

keywords highlessbandwidthconversionlossnonlinearopticalsignal

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We demonstrate wavelength conversion of QAM signals including 32GBd QPSK and 10GBd 16QAM in a 50cm long high index doped glass spiral waveguide. The quality of the generated idlers over a 10nm bandwidth is sufficient to achieve a BER performance below the HD FEC threshold (less than 3.8 x 10-3), with an OSNR penalty of less than 0.3 dB compared to the original signal. Our results confirm that this is a promising platform for nonlinear optical signal processing, a result of both very low linear propagation loss (less than 0.07 dB/cm) and the large material bandgap that ensures negligible nonlinear loss at telecom wavelengths.

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Optical wavelength conversion of high bandwidth phase-encoded signals in a high FOM 50cm CMOS compatible waveguide

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