A Universal Method to Generate Hyperpolarisation in Beams and Samples
Abstract
Sizable hyperpolarisation, i.e. an imbalance of the occupation numbers of nuclear spins in a sample deviating from thermal equilibrium, is needed in various fields of science. For example, hyperpolarised tracers are utilised in magnetic resonance imaging in medicine (MRI) and polarised beams and targets are employed in nuclear physics to study the spin dependence of nuclear forces. Here we show that the quantum interference of transitions induced by radio-wave pumping with longitudinal and radial pulses are able to produce large polarisations at small magnetic fields. This method is easier than established methods, theoretically understood and experimentally proven for beams of metastable hydrogen atoms in the keV energy range. It should also work for a variety of samples at rest. Thus, this technique opens the door for a new generation of polarised tracers, possibly low-field MRI with better spatial resolution or the production of polarised fuel to increase the efficiency of fusion reactors by manipulating the involved cross sections.
Cite
@article{arxiv.2311.05976,
title = {A Universal Method to Generate Hyperpolarisation in Beams and Samples},
author = {R. Engels and T. El-Kordy and N. Faatz and C. Hanhart and N. Hanold and C. S. Kannis and L. Kunkel and S. Pütz and H. Sharma and T. Sefzick and H. Soltner and V. Verhoeven and M. Westphal and J. Wirtz and M. Büscher},
journal= {arXiv preprint arXiv:2311.05976},
year = {2023}
}
Comments
22 pages, 9 figures, splitted into two parts: main paper and methods