Abstract: Nitrogen-vacancy (NV) centers in diamond have emerged as powerful solid-state systems for quantum sensing, enabling highly sensitive detection of magnetic fields at room temperature. During my summer at QuantCAD, I worked on developing and modeling magnetometry techniques that integrate NV center physics with coil-based, all-electric chip-scale atomic magnetometers. This project combined computational design, electromagnetic simulations, and quantum measurement concepts to explore how miniaturized quantum sensors can achieve high magnetic sensitivity without requiring bulky optical components. In this talk, I’ll introduce the underlying physics of NV centers, describe the principles of all-electric magnetometry, and discuss the challenges and insights from integrating these techniques for compact quantum sensing applications.
Join via Zoom: https://illinois.zoom.us/j/84701225497?pwd=Xln6ZCKraIhgRswrUDdn1NfpTlOK4A