Stored Ion & Bio-Optics Research Laboratory
Led the design and implementation of a high-frequency signal generator, contributing to prototype development, field testing, and environmental measurements for active research systems. In addition to core engineering work, I participated in lab-run workshops, technical outreach, and recruitment initiatives, through the physics festival.
HF - Wavelength Modulation Spectroscopy Detection Device
Contributed to the development of a high-frequency wavelength modulation spectroscopy (WMS) detection system, with a primary focus on signal generation, system integration, and field validation. I worked on the high-frequency signal generator, later supporting the addition of an FPGA-based high-frequency signal generation module to improve system performance and flexibility.
Research Projects & Contribution
Beyond core hardware development, I supported prototype testing, environmental testing, and device setup, and assisted in preparing and delivering a government-facing technical presentation. I also contributed to laser alignment, distance calibration, and optical setup across multiple experimental configurations.
The system was evaluated through extensive field testing spanning distances from 10 feet to 1 kilometer, including final data collection and material testing across all operational ranges. This work required adapting the system to outdoor conditions, validating performance under environmental stress, and iterating on both hardware and experimental procedures
As a member of the SIBOR laboratory, presented technical work at the SIBOR Workshop, an international physics workshop attended by leading scientists and Nobel Prize–winning researchers.
Delivered a talk titled “Incorporation of a Field-Programmable Gate Array in Long-Range Atmospheric Spectroscopy,” detailing FPGA integration within long-range spectroscopy systems.