NV Center Magnetometry
Development of magnetic field sensors using nitrogen-vacancy centers in diamond. These solid-state quantum sensors enable high-resolution magnetometry at room temperature with nanoscale spatial resolution.
Rydberg Atom Electric Field Sensing
Exploring Rydberg atoms as ultrasensitive electric field sensors. Their extreme polarizability enables detection of low frequency fields with unprecedented sensitivity and broad frequency coverage.
Atomic Magnetometer for Brain Signals
Developing optically pumped magnetometers for magnetoencephalography (MEG). These sensors measure the tiny magnetic fields produced by neural activity, enabling non-invasive brain imaging without cryogenic cooling.
Quantum Annealing Algorithms
Implementing optimization algorithms on quantum annealing systems. We explore applications in combinatorial optimization, machine learning, and materials simulation using quantum adiabatic computation.
Gate-Based Quantum Computing
Developing and testing quantum algorithms on superconducting quantum computers. Our work spans variational algorithms, quantum error mitigation, and near-term quantum applications.
Precision Instrumentation
Engineering advanced research tools including 5-axis mirror alignment systems. This work develops automation and precision optics skills that bridge quantum research and industrial applications.