Magnetic Field Sensing with Nitrogen-Vacancy Color Centers in Diamond

• Main Author: Pham, Linh My
• Other Authors: Walsworth, Ronald L.
• Language: en_US
• Published: Harvard University 2013
• Subjects: Physics; Diamond; Magnetic Field Imaging; Magnetic Field Sensing; Nitrogen-Vacancy Center; Solid-State Spin Physics; Solid-State Spin Systems
• Online Access: http://dissertations.umi.com/gsas.harvard:10993; http://nrs.harvard.edu/urn-3:HUL.InstRepos:11051173

In recent years, the nitrogen-vacancy (NV) center has emerged as a promising magnetic sensor capable of measuring magnetic fields with high sensitivity and spatial resolution under ambient conditions. This combination of characteristics allows NV magnetometers to probe magnetic structures and systems that were previously inaccessible with alternative magnetic sensing technologies. This dissertation presents and discusses a number of the initial efforts to demonstrate and improve NV magnetometry. In particular, a wide-field CCD based NV magnetic field imager capable of micron-scale spatial resolution is demonstrated; and magnetic field alignment, preferential NV orientation, and multipulse dynamical decoupling techniques are explored for enhancing magnetic sensitivity. The further application of dynamical decoupling control sequences as a spectral probe to extract information about the dynamics of the NV spin environment is also discussed; such information may be useful for determining optimal diamond sample parameters for different applications. Finally, several proposed and recently demonstrated applications which take advantage of NV magnetometers' sensitivity and spatial resolution at room temperature are presented, with particular focus on bio-magnetic field imaging. === Engineering and Applied Sciences