Summary
Sanam Moslemi-tabrizi is an analog engineer with a decade of experience bridging photonics, quantum mechanics, and solid-state LiDAR system design. Currently at Ciena and active in research at Carleton University, she designs silicon photonics devices, develops full-vectorial mode solvers and waveguide simulators, and applies hybrid coupled mode theory to reduce crosstalk in optical filters and switches. Her background spans hands-on circuit and PCB design, CAD/QC for semiconductor IP, and operations leadership coordinating cross-functional delivery and quality processes. Notably, she has developed meshless numerical methods for Schrödinger–Poisson problems at the nanoscale and implemented MATLAB tools for high-speed beam-scanning LiDAR, combining deep theory with practical device fabrication and testing.
10 years of coding experience
3 years of employment as a software developer
Master of Science - MS, Electrical and Electronics Engineering, Master of Science - MS, Electrical and Electronics Engineering at Concordia University
Graduate Studies and Research, Electronics, Graduate Studies and Research, Electronics at Carleton University
Bsc, Electrical and Electronics Engineering, Bsc, Electrical and Electronics Engineering at Tabriz University
English, Persian, azeri