Abstract
We demonstrate the first (to the best of our knowledge) depletion-mode carrier-plasma optical modulator fabricated in a standard advanced complementary metal–oxide-semiconductor (CMOS) logic process (45 nm node SOI CMOS) with no process modifications. The zero-change CMOS photonics approach enables this device to be monolithically integrated into state-of-the-art microprocessors and advanced electronics. Because these processes support lateral junctions but not efficient ridge waveguides, we accommodate these constraints with a new type of resonant modulator. It is based on a hybrid microring/disk cavity formed entirely in the sub-90 nm thick monocrystalline silicon transistor body layer. Electrical contact of both polarities is made along the inner radius of the multimode ring cavity via an array of silicon spokes. The spokes connect to and regions formed using transistor well implants, which form radially extending lateral junctions that provide index modulation. We show 5 Gbps data modulation at 1265 nm wavelength with 5.2 dB extinction ratio and an estimated energy consumption. Broad thermal tuning is demonstrated across 3.2 THz (18 nm) with an efficiency of . A single postprocessing step to remove the silicon handle wafer was necessary to support low-loss optical confinement in the device layer. This modulator is an important step toward monolithically integrated CMOS photonic interconnects.
© 2013 Optical Society of America
Full Article | PDF ArticleMore Like This
Jeffrey M. Shainline, Jason S. Orcutt, Mark T. Wade, Kareem Nammari, Ofer Tehar-Zahav, Zvi Sternberg, Roy Meade, Rajeev J. Ram, Vladimir Stojanović, and Miloš A. Popović
Opt. Lett. 38(15) 2729-2731 (2013)
Ilya Goykhman, Boris Desiatov, Shalva Ben-Ezra, Joseph Shappir, and Uriel Levy
Opt. Express 21(17) 19518-19529 (2013)
Vladimir Stojanović, Rajeev J. Ram, Milos Popović, Sen Lin, Sajjad Moazeni, Mark Wade, Chen Sun, Luca Alloatti, Amir Atabaki, Fabio Pavanello, Nandish Mehta, and Pavan Bhargava
Opt. Express 26(10) 13106-13121 (2018)