C. Latrasse scite author profile

We present a Silicon Photonic (SiP) intensity modulator operating at 1.3 μm with pulse amplitude modulation formats for short reach transmission employing a digital to analog converter for the RF signal generator, enabling pulse shaping and precompensation of the transmitter's frequency response. Details of the SiP Mach-Zehnder interfometer are presented. We study the system performance at various bit rates, PAM orders and propagation distances. To the best of our knowledge, we report the first demonstration of a 112 Gb/s transmission over 10 km of SMF fiber operating below pre-FEC BER threshold of 3.8 × 10(-3) employing PAM-8 at 37.4 Gbaud using a fully packaged SiP modulator. An analytical model for the Q-factor metric applicable for multilevel PAM-N signaling is derived and accurately experimentally verified in the case of Gaussian noise limited detection. System performance is experimentally investigated and it is demonstrated that PAM order selection can be optimally chosen as a function of the desired throughput. We demonstrate the ability of the proposed transmitter to exhibit software-defined transmission for short reach applications by selecting PAM order, symbol rate and pulse shape.

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Frequency stability of an optical frequency standard at 192.6 THz based on a two-photon transition of rubidium atoms

Poulin

Latrasse

Touahri

et al. 2002

Optics Communications

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Absolute frequency measurement of a laser at 1556 nm locked to the 5S1/2−5D5/2 two-photon transition in 87Rb

Bernard

Madej

Siemsen

et al. 2000

Optics Communications

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Ultra-Compact Coherent Receiver Based on Hybrid Integration on Silicon

Painchaud

Pelletier

Poulin

et al. 2013

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Step-tunable (100 GHz) hybrid laser based on Verniereffect between Fabry-Perotcavity and sampled fibre Bragg grating

et al. 1999

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C. Latrasse

Experimental study of 112 Gb/s short reach transmission employing PAM formats and SiP intensity modulator at 13 μm

Frequency stability of an optical frequency standard at 192.6 THz based on a two-photon transition of rubidium atoms

Absolute frequency measurement of a laser at 1556 nm locked to the 5S1/2−5D5/2 two-photon transition in 87Rb

Ultra-Compact Coherent Receiver Based on Hybrid Integration on Silicon

Step-tunable (100 GHz) hybrid laser based on Verniereffect between Fabry-Perotcavity and sampled fibre Bragg grating

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