Creating and Controlling Single Spins
- The Nitrogen Vacancy Center in Diamond
- Single Spin Spectroscopy
- Polarization of Coupled Single Spins
- Excited-State Spectroscopy Using Single Spin Manipulation
- Storing Charge in Single-Crystal Diamond
- Chip-Scale Nanofabrication of Single Spins and Spin Arrays in Diamond
- Gigahertz Dynamics of a Strongly Driven Single Quantum Spin
- Calibration of Spin Rotation Using Adiabatic Passage
Quantum Optical Systems
- Spin-light Coupling for Coherent Measurement and Optical Control of Individual Spins
- Electrical Tuning of Nitrogen-Vacancy Center Optical Transitions
- All-Optical Control of a Single Spin Employing Coherent Dark States
- Ultrafast Control of Spin and Orbital Dynamics
- Lambda Systems for Geometric and Superadiabatic Control
- All-Optical Holonomic Single-Qubit Gates
Hybrid Quantum Systems
Nanoscale Sensing with Spins
Magnetometry
Thermometry
- Measurement and Control of Single Spins in Diamond Above 600 K
- Fluorescence Thermometry Enhanced by the Quantum Coherence of Single Spins in Diamond