Litcius/Paper detail

Understanding magnetic relaxation in single-ion magnets with high blocking temperature

Alessandro Chiesa, Francesco Cugini, Riaz Hussain, Emilio Macaluso, G. Allodi, Elena Garlatti, Marcus J. Giansiracusa, Conrad A. P. Goodwin, Fabrizio Ortu, Daniel Reta, Jonathan M. Skelton, T. Guidi, P. Santini, M. Solzi, R. De Renzi, David P. Mills, Nicholas F. Chilton, Stefano Carretta

2020Physical review. B./Physical review. B142 citationsDOIOpen Access PDF

Abstract

The recent discovery of single-ion magnets with magnetic hysteresis above liquid-nitrogen temperatures placed these compounds among the best candidates to realize high-density storage devices. Starting from a prototypical dysprosocenium molecule, showing hysteresis up to 60 K, we derive here a general recipe to design high-blocking-temperature rare-earth single-ion magnets. The complex magnetic relaxation is unraveled by combining magnetization and nuclear magnetic resonance measurements with inelastic neutron scattering experiments and ab initio calculations, thus disentangling the different mechanisms and identifying the key ingredients behind slow relaxation.

Topics & Concepts

MagnetMaterials scienceMagnetizationRelaxation (psychology)Condensed matter physicsHysteresisInelastic neutron scatteringIonMagnetic hysteresisAb initioAb initio quantum chemistry methodsNuclear magnetic resonanceNeutron scatteringChemical physicsNeutronMagnetic fieldMoleculeNuclear physicsPhysicsQuantum mechanicsSocial psychologyPsychologyMagnetism in coordination complexesAdvanced NMR Techniques and ApplicationsLanthanide and Transition Metal Complexes
Understanding magnetic relaxation in single-ion magnets with high blocking temperature | Litcius