High Polarization of Nuclear Spins Mediated by Nanoparticles at Millikelvin Temperatures

Keywords

according acetate achieve address administration agents applicable applications astronomy brute called carried central child chosen clear commercially conditions consistency containing continue copper degree describe development developments dissolution distribution easily effective enable enhancement enhancers envisaged equilibrium establish even evident example excessively exploration explored feasible feature field fold force function generate gives glycerol goal greater greatest growth health highly hours human in vivo indication ineffective intense investigations john kelvin kingdom known least long many materials measurable measured mechanisms mediated metabolism metallic metals methodology might mixing mixtures molar normalized notion novel nuclear nuclei observations operates outputs oxide part particular parts peat phosphate physics platinum polarization polarizations polarized possibility prepared presence problem reach reached reduced removable required revealed room sample samples sandy school selected sigma silver sodium solution solutions spectrometer spins stage store strategy studies subsequent support system take technology temperature temperatures thank tissue towards transfer typical ultra variety view volume water wide widely year years yields