Journal article
Nanoscale magnetometry through quantum control of nitrogen-vacancy centres in rotationally diffusing nanodiamonds
D MacLaurin, LT Hall, AM Martin, LCL Hollenberg
New Journal of Physics | Published : 2013
Abstract
The confluence of quantum physics and biology is driving a new generation of quantum-based sensing and imaging technology capable of harnessing the power of quantum effects to provide tools to understand the fundamental processes of life. One of the most promising systems in this area is the nitrogen-vacancy centre in diamond - a natural spin qubit which remarkably has all the right attributes for nanoscale sensing in ambient biological conditions. Typically the nitrogen-vacancy qubits are fixed in tightly controlled/isolated experimental conditions. In this work quantum control principles of nitrogen-vacancy magnetometry are developed for a randomly diffusing diamond nanocrystal. We find th..
View full abstractRelated Projects (1)
Grants
Awarded by Australian Research Council Centre of Excellence for Quantum Computation and Communication Technology
Awarded by Australian Research Council Professorial Fellowship
Funding Acknowledgements
This research was supported by the Australian Research Council Centre of Excellence for Quantum Computation and Communication Technology (CE110001027). LCLH was supported under an Australian Research Council Professorial Fellowship (DP0770715).