Below are select presentations on this topic. To find additional relevant papers and sessions, visit the online conference program. There are no video segments available for single-chip integration.

CTuAA5 • Cryogenically Cooled Laser Based on Resonantly Pumped Er³⁺:Y₂O₃ Ceramic
Tuesday, May 6, 3:30 p.m.–3:45 p.m., Marriott San Jose Salon 1 and 2
Nikolay Ter-Gabrielyan, Larry D. Merkle, G. Alex Newburgh, Mark Dubinskii; US ARL, USA. Laser performance of Er³⁺-doped Y₂O₃ ceramic is reported for the first time. Resonantly-pumped, eyesafe, 1.6-μm Er:Y₂O₃ cryo-laser slope efficiency of ~48% and output power ~ 7 W have been achieved in this first experiment.

QTuF7 • Optical Microchip Detection of Nuclear Magnetic Resonance
Tuesday, May 6, 12:15 p.m.–12:30 p.m., Room C1 and C2
Micah P. Ledbetter¹, Igor M. Savukov¹, Dmitry Budker¹, Vishal Shah², Svenja Knappe², John Kitching², Shoujun Xu³, David Michalak³, Alexander Pines³; ¹Dept. of Physics, Univ. of California at Berkeley, USA, ²Time and Frequency Div., NIST, USA, ³Dept. of Chemistry, Univ. of California at Berkeley, USA. We demonstrate optical detection of nuclear magnetic resonance on a microchip. A theoretical optimization indicates detection limits that are competitive with that demonstrated by microcoils in high magnetic fields, without requiring superconducting magnets.

CTuBB3 • Demonstration of an Electronic Photonic Integrated Circuit in a Commercial Scaled Bulk CMOS Process
Tuesday, May 6, 4:00 p.m.–4:15 p.m., Marriott San Jose Salon 3
Jason S. Orcutt¹, Anatol Khilo¹, Milos A. Popovic¹, Charles W. Holzwarth¹, Benjamin Moss¹, Hanqing Li¹, Marcus S. Dahlem¹, Thomas D. Bonifield², Franz X. Kaertner¹, Erich P. Ippen¹, Judy L. Hoyt¹, Rajeev J. Ram¹, Vladimir Stojanovic¹; ¹MIT, USA, ²Texas Instruments Inc., USA. We demonstrate the first photonic chip designed in a commercial bulk CMOS process (65 nm node) using standard process layers combined with scalable post-processing, enabling dense photonic integration with high-performance microprocessor electronics.