Israel
I'm an optics-loving engineer with a passion for lasers and building smart Python scripts. Over the past 5 years, I’ve been hands-on with fiber lasers, experimental setups, and simulations—writing scripts and algorithms to optimize lab workflows and control systems. I’m curious by nature and always driven to understand the why, what, and how behind everything I do. I value clarity, efficiency, and thoughtful questioning—and I believe that strong teamwork leads to better thinking, better results, and real innovation. I’m here to learn, contribute, and push things forward—with sharp logic, open collaboration, and a lot of energy.
● Developed and optimized electro-optical setups, performed complex measurements, and analyzed system performance data for advanced photonic computing systems ● Perform optical simulations of multi-core fiber (MCF) behavior under various conditions ● Developed custom Python scripts for controlling measurement hardware and automating data workflows ● Actively engaged with suppliers and manufacturers on component sourcing, technical specifications, and system integration ● Contributed to physics-driven discussions and experimental planning to define system architecture and validate functionality
• Designed and built multidisciplinary experimental setups, performed measurements, and analyzed data • Conducted thorough literature research on Terahertz (THz) systems and applications • Characterized the performance and properties of lasers, optical components and THz systems • Performed market research of optical equipment and components
• Conducted comprehensive literature research on various optical technologies and systems • Designed and built experimental optical setups to investigate and evaluate new optical technologies and systems, performed measurements, and analyzed results • Conducted market research, evaluated and purchased optical equipment and components to meet project requirements while optimizing costs
Translated circuit descriptions to physical layouts by positioning cells and implementing routing for interconnections.