Project

Spingineering

Control of quantum systems is becoming increasingly relevant in magnetic resonance imaging, quantum computation, and quantum instrumentation. We are investigating the application of techniques from classical control theory to the quantum domain. Demonstrating open loop control via a proof of principle nuclear magnetic resonance experiments, we are working toward broad applications of control techniques to quantum mechanical engineering.

Control of quantum systems is becoming increasingly relevant in magnetic resonance imaging, quantum computation, and quantum instrumentation. We are investigating the application of techniques from classical control theory to the quantum domain. Demonstrating open loop control via a proof of principle nuclear magnetic resonance experiments, we are working toward broad applications of control techniques to quantum mechanical engineering.