Title: Harvard and NIST Collaborate on Quantum-Controlled Diamond Magnetometers for Quantum Information Processing
Harvard University and the National Institute of Standards and Technology (NIST) are working on a project to develop ultra-sensitive diamond-based magnetic field sensors using principles from quantum information science. The goal is to create nanometer-scale sensors that can detect magnetic fields with unprecedented sensitivity and spatial resolution.
The project will leverage advanced quantum control techniques and measurement strategies to manipulate and read out single spin qubits in diamond. These sensors could have various applications in quantum information processing, such as performing qubit readouts and transfers, and detecting magnetic fields at the level of individual electronic and nuclear spins.
The collaboration aims to combine the strengths of quantum information theory with cutting-edge sensing technologies to push the boundaries of magnetic field detection capabilities. The project is currently in development, with potential implications for quantum computing, sensing, and information processing applications.
Keywords: qubits, spin, sensor, entanglement, quantum
