Your search keyword '"Lessard, Stephane"' showing total 4 results

1. CMOS-Compatible and Temperature Insensitive C-Band Wavelength (De-)multiplexer.

Author

Mao, Deng, Wang, Yun, Xu, Luhua, Zhang, Jinsong, El-Fiky, Eslam, Alam, Md Samiul, D'Mello, Yannick, Lessard, Stephane, and Plant, David V.

Abstract

The high thermal sensitivity of the Silicon Photonics (SiP) platform compromises the performance of variant devices and increases the power consumption to stabilize the temperature. To address this issue, we demonstrate a CMOS-compatible and temperature insensitive $1\times 4$ C-band wavelength division (de-)multiplexer on the 220-nm-thick silicon-on-insulator platform. The (de-)multiplexer design is based on cascading Mach-Zehnder interferometers (MZIs). The waveguide widths of the MZI delay lines are matched to decrease the overall thermo-optic coefficient (TOC). For comparison, an MZI-based (de-)multiplexer with uniform delay lines is also fabricated on the same chip. The transmission spectra of the proposed and reference devices are measured when the wavelength is swept from 1500 nm to 1600 nm and the temperature is varied from 293.15 K to 323.15 K. The measured results show that the TOCs of the proposed and reference device are 4.8 pm/K and 85 pm/K, respectively. This power-efficient multiplexer with high integration density is promising for data center applications. [ABSTRACT FROM AUTHOR]

Published

2022

2. 25 and 50 Gb/s/ ${{\lambda}}$ PAM-4 Transmission Over 43 and 21 km Using a Simplified Coherent Receiver on SOI.

Author

Saber, Md Ghulam, El-Fiky, Eslam, Xing, Zhenping, Morsy-Osman, Mohamed, Patel, David, Samani, Alireza, Alam, Md Samiul, Shahriar, Kh Arif, Xu, Luhua, Vall-Llosera, Gemma, Dortschy, Boris, Urban, Patryk J., Cavaliere, Fabio, Lessard, Stephane, and Plant, David V.

Abstract

We demonstrate 25 and 50 Gb/s four-level pulse amplitude modulation (PAM-4) transmission over 43- and 21-km standard single-mode fiber (SMF), respectively, using a silicon photonic 120° hybrid-based integrated simplified coherent receiver in the $C$ -band. The integrated receiver is composed of an edge coupler, a vertical grating coupler, a polarization splitter–rotator, a $3\times 3$ multimode interference coupler-based 120° hybrid, and three germanium p-i-n photodetectors. For 25 Gb/s PAM-4 transmission, we achieved the receiver sensitivities of −18, −17.5, −16.6, −14.5, and −9.8 dBm in back-to-back (B2B) and after 10.5, 21, 31, and 43 km, respectively, at a bit error rate (BER) below the hard-decision forward error correction (HD-FEC) threshold (i.e., $3.8\times 10^{-3}$) without using any receiver equalizer, while for the 50 Gb/s PAM-4 transmission, the receiver sensitivities of −13.6 dBm in B2B, and −13.5 and −11.6 dBm after 10.5 and 21 km are obtained using a 31-tap linear feed-forward equalizer (FFE), respectively. Furthermore, we achieved up to 44 Gb/s receiver equalizer-free PAM-4 transmission over 10.5 km below the HD-FEC. The characterization of the receiver at different wavelengths within the $C$ -band is provided as well. [ABSTRACT FROM AUTHOR]

Published

2019

3. Optimum Three-Dimensional Constellations for Stokes Vector Direct Detect Receivers.

Author

Morsy-Osman, Mohamed, Alam, Md Samiul, Shahriar, Kh Arif, Lessard, Stephane, and Plant, David V.

Abstract

We propose optimum 3D signal constellations for short reach intra-datacenter interconnects using stokes vector receivers. These optimum 3D alphabets maximize the so-called constellation figure of merit, which is the ratio between the squared minimum Euclidean distance and the average energy of the constellation points. Compared to dual-polarization 4-ary and 8-ary pulse amplitude modulation formats, the optimized 16-point and 64-point 3D signal constellations theoretically achieve 4 and 6 dB improved receiver sensitivity at low symbol error rates of ~10−5, while delivering similar spectral efficiencies of 4 and 6 bits per 3D symbol, respectively. Next, we experimentally verified the significant improvement in receiver sensitivity at symbol rates of 44 and 64 Gbaud that result from using the proposed optimized 3D signal alphabets. [ABSTRACT FROM AUTHOR]

Published

2019

4. DSP-Free 25-Gbit/s PAM-4 Transmission Using 10G Transmitter and Coherent Amplification.

Author

Saber, Md. Ghulam, Morsy-Osman, Mohamed, Hui, Michael, El-Fiky, Eslam, Vall-Llosera, Gemma, Dortschy, Boris, Urban, Patryk J., Cavaliere, Fabio, Lessard, Stephane, and Plant, David V.

Abstract

We demonstrate 25-Gbit/s four-level pulse amplitude modulation transmission over 28-km standard single-mode fiber using an off-the-shelf 10-Gbit/s electro-absorption modulated laser and a $3\times3$ fiber splitter based simplified coherent receiver in the $C$ -band. No digital signal processing and dispersion compensation have been used either at the transmitter or at the receiver. Furthermore, the use of an intensity modulated signal allows us to avoid the phase and frequency locking of the local oscillator. We achieved receiver sensitivities of −18.25, −17, and −13.4 dBm at a bit error rate below the hard-decision forward error correction threshold (i.e., $3.8\times 10^{-3}$) and power budgets of 20.80, 19.55, and 15.95 dB in back-to-back, after 20.7 and 28 km, respectively. We also demonstrate polarization independent operation by slightly modifying the architecture of the simplified coherent receiver. [ABSTRACT FROM AUTHOR]

Published

2018