About

I’m an engineer and researcher working at the intersection of superconducting electronics, quantum instrumentation, and scalable computing systems. By day, I’m an ASIC engineer at Fermilab, where my work focuses on designing and integrating superconducting digital technologies, detector readout systems, and timing electronics that enable next-generation scientific experiments. In parallel, I’m pursuing a part-time PhD in Electrical and Computer Engineering, where my research centers on scaling superconducting nanowire single-photon detectors (SNSPDs), mitigating flux trapping, and developing the digital infrastructure needed to make large superconducting systems practical. I’m particularly interested in how advances in device physics, circuit design, and system architecture can unlock applications ranging from quantum networking and computing to particle detection and precision measurement.

Outside of my formal research, I’m passionate about building tools and frameworks that help turn complex ideas into usable systems. I spend a lot of time designing software for scientific workflows, personal knowledge management, and data-driven training — often blending engineering, mathematics, and UI design into cohesive platforms. I’m also deeply invested in endurance sports and strength training, where I apply the same modeling mindset to performance, recovery, and long-term development. At home, life is centered around my family — my wife, our kids, and the ongoing project of building a meaningful, balanced life that connects curiosity, discipline, and creativity. Across all of these areas, I’m driven by the same core idea: thoughtful systems — whether technical, physical, or personal — can compound into something far greater than the sum of their parts.