Now showing items 1-3 of 3

    • 30-Gb/s Optical Link Combining Heterogeneously Integrated III–V/Si Photonics With 32-nm CMOS Circuits 

      Dupuis, Nicolas; Lee, Benjamin; Proesel, Jonathan; Rylyakov, Alexander; Rimolo-Donadio, Renato; Baks, Christian; Abhijeet, Ardey; Schow, Clint; Ramaswamy, Anand; Roth, Jonathan; Robert, Guzzon; Koch, Brian; Sparacin, Daniel; Fish, Greg (Institute of Electrical and Electronics Engineers Inc., 2015-02)
      We present a silicon photonics optical link utilizing heterogeneously integrated photonic devices driven by low-power advanced 32-nm CMOS integrated circuits. The photonic components include a quantum-confined Stark effect ...
    • A WDM 4x28Gbps integrated silicon photonic transmitter driven by 32nm CMOS driver ICs 

      Rimolo-Donadio, Renato; Ramaswamy, Anand; Roth, Jonathan; Norberg, Erik; Guzzon, Robert; Shin, Jaehyuk; Imamura, Jeff; Koch, Brian; Sparacin, Daniel; Fish, Greg; Lee, Benjamin; Baks, Christian; Rylyakov, Alexander; Proesel, Jonathan; Meghell, Mounir; Schow, Clint (OSA - The Optical Society, 2015)
      A four-channel WDM silicon photonic transmitter with integrated lasers and modulators driven by low-power 32nm CMOS drivers, is demonstrated to operate at a data rate of 4×28Gb/s with BER<10-12 and power consumption of 10.0pJ/bit.
    • Four-channel WDM transmitter with heterogeneously integrated III-V/Si photonics and low power 32 nm CMOS drivers 

      Huynh, Tam; Ramaswamy, Anand; Rimolo-Donadio, Renato; Schow, Clint; Roth, Jonathan; Norberg, Erik; Proesel, Jonathan; Guzzon, Robert; Shin, Jaehyuk; Rylyakov, Alexander; Baks, Christian; Koch, Brian; Sparacin, Daniel; Fish, Greg; Lee, Benjamin (Journal of Lightwave Technology, 2016)
      We experimentally demonstrate a novel four-channel wavelength division multiplexing transmitter operating at 1.3 μm wavelength employing heterogeneously integrated III-V/Si photonic circuit copackaged with low-power ...