People - Photonic Microsystems Group - Massachusetts Institute …
Professor Michael R. Watts is a principal investigator in the Research Laboratory of Electronics (RLE) and a member of the Electrical Engineering and Computer Science Department (EECS) at the Massachusetts Institute of Technology.
Contact - Photonic Microsystems Group - Massachusetts Institute …
Professor Michael Watts Massachusetts Institute of Technology Research Laboratory of Electronics. 77 Massachusetts Avenue, Room 26-343 Cambridge, MA 02139. [email protected] 617.253.3073—Tel 617.253.5729—Fax — Dianne Lior, Administrative Assistant Massachusetts Institute of Technology Research Laboratory of Electronics. 77 Massachusetts ...
Michael R. Watts,1,* Jie Sun,1 Christopher DeRose,2 Douglas C. Trotter,2 Ralph W. Young,2 and Gregory N. Nielson 2 1 Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA
Publications - Photonic Microsystems Group - Massachusetts …
Jie Sun, Ami Yaacobi, Erman Timurdogan, Ehsan Shah Hosseini, Douglas Coolbaugh, Gerald Leake, and Michael R. Watts, “Optical Phased Array on Silicon Photonic Platform,” Invited, IEEE Group IV Photonics, Seoul, Korea, 2013.
*email: [email protected] Abstract: Advances in microring-resonator-based photonic structures and novel architectures are described that demonstrate the first low-loss telecom-grade filters, wide tuning, polarization
Michael R. Watts, William A. Zortman, Douglas C. Trotter, Gregory N. Nielson, David L. Luck, and Ralph W. Young Sandia National Labs, P. O. Box 5800, Albuquerque, NM 87185 [email protected] Abstract: A new class of microphotonic-resonators, Adiabatic Resonant Microrings (ARMs), is introduced.
Author e-mail address: [email protected] Abstract: We present several optical phased arrays enabled by state-of -the-art large-scale silicon photonic integration which could find potential applications in optical switching, optical
Home - Photonic Microsystems Group
The Photonic Microsystems Group develops microphotonic elements, circuits, and systems for a variety of applications, including communications, sensing, and coupled microwave-photonic circuits, often enabling fundamental advantages over traditional implementations. Microphotonic devices are combined to form large-scale circuits and systems such as low power inter-chip networks, thermal imagers ...
Michael R. Watts Research Laboratory of Electronics, Massachusetts Institute of Technology, Cambridge, MA 02139 [email protected] Abstract: Significant progress in silicon photonics has led to flattop filters, polarization independence, low power modulators and switches, and low dark current germanium detectors.
Research - Photonic Microsystems Group - Massachusetts Institute …
Research Area II: On-Chip Lasers & Integration. The ability to reliably fabricate silicon microphotonic devices and systems in a CMOS-compatible process is the key to the success of silicon photonics.