Basic Information
Photonic Integrated Circuits For Modulation, Pre-detection of Light Phase, Amplitude, Polarization, Frequency. Advanced Photon Statistics# Photodetection, Optical Amplification. Coherent Optical Detection# Principles, Performance Limits, Sub-systems (integrated Photonics, Dsp). Applications# Ultra-high-speed Photonic Interconnects With Direct/coherent Detection. Coherent Remote Sensing# Lidar, Distributed-fiber-sensing. Learning Outcomes# at The End of The Course The Student Will Know# 1. Appreciate The Wide Applicability Of The Coherent Detection in Use Cases Rangine From Next-gen Data Interconnects to Remote Optical Sensing Over Both Fiber-optics And Free-space Optical Propagation Media. 2. Comprehend Direct-detection/coherent Photonic Communication And Sensing Systems Under a Unified Framework, Combining Physical Optics, Mathematical Signal and Noise Analysis, and Modern Optical Engineering Principles. (such As The Use of Silicon Integrated Photonics). 3. Ability to Analyze, Design, Measure, Validate The Opto-electronic Link Budget of Optical Systems Subject to Common Principles# Data Transmission Systems, Lidar and 3d Vision Systems, Fiber Optic Metrology Systems.
Faculty: Electrical and Computer Engineering
|Graduate Studies
Pre-required courses
46206 - Introduction to Digital Communication