Below 360 mK, Fe-8 magnetic molecular clusters are in the pure quantum relaxation regime. We showed recently that the predicted "square-root time" relaxation is obeyed, allowing us to develop a new method for watching the evolution of the distribution of molecular spin states in the sample. We measured the distribution P(H) of molecules which are in resonance at the applied field I-I. Tunnelling initially causes rapid transitions of molecules, thereby "digging a hole" in P(H). For small initial magnetisation values, the hole width shows an intrinsic broadening which may be due to nuclear spins. We present here hole-digging measurements in the thermal-activated regime which may allow to study the effect of spin-phonon coupling. (C) 2000 Elsevier Science B.V. A
Quantum hole digging in magnetic molecular clusters
Sangregorio C;
2000
Abstract
Below 360 mK, Fe-8 magnetic molecular clusters are in the pure quantum relaxation regime. We showed recently that the predicted "square-root time" relaxation is obeyed, allowing us to develop a new method for watching the evolution of the distribution of molecular spin states in the sample. We measured the distribution P(H) of molecules which are in resonance at the applied field I-I. Tunnelling initially causes rapid transitions of molecules, thereby "digging a hole" in P(H). For small initial magnetisation values, the hole width shows an intrinsic broadening which may be due to nuclear spins. We present here hole-digging measurements in the thermal-activated regime which may allow to study the effect of spin-phonon coupling. (C) 2000 Elsevier Science B.V. AI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
