Multiexponential spin-lattice relaxation of 125Te in tellurium due to ultraslow atomic motion

Kanert, O.O.KanertMehring, M.M.MehringWolf, D.D.WolfGuenther, B.B.Guenther2022-03-022022-03-021981https://publica.fraunhofer.de/handle/publica/17044210.1103/PhysRevB.24.6747Nonexponential Spin-lattice relaxation is shown to result under selective excitation due to ultraslow site exchange. The hopping rate of the nuclei can be obtained directly without any further assumption on the nuclear spin interactions and spin thermodynamics. In tellurium single crystals hopping rates of Te-125 less than 1/sec have been observed.endiffusionKernspinrelaxationNMRSelbstdiffusionTellur620660671530Multiexponential spin-lattice relaxation of 125Te in tellurium due to ultraslow atomic motionMulti-exponentielle Spin-Gitter-Relaxation von 125Te in Tellur durch ultralangsame atomare Bewegungjournal article