NEUTRON-DIFFRACTION STUDY OF THE CARRIER-CONCENTRATION-INDUCED FERROMAGNET-TO-SPIN-GLASS TRANSITION IN THE DILUTED MAGNETIC SEMICONDUCTOR SN1-XMNXTE

In the diluted magnetic semiconductor Sn1-xMnxTe the charge-carrier co ncentration p is of crucial importance for the low-temperature magneti c behavior. By means of neutron-diffraction experiments, in combinatio n with ac-susceptibility, magnetization, and specific-heat data, we sh ow that for x = 0.04 the long-range-ordered ferromagnetic state observ ed for p = 7 X 10(20) cm-3 gradually evolves into a spin-glass state w ith increasing carrier concentration. In a crystal with p = 11 X 10(20 ) cm3 initially a transition to a restricted-ranged ferromagnetic orde r occurs when the temperature is lowered in zero field, followed by a transition into a reentrant spin-glass phase. By the application of a small magnetic field (5.0 mT) the reentrant spin-glass transition is s uppressed. In a p = 23 X 10(20) cm-3 crystal a spin-glass phase is ent ered directly from the paramagnetic regime. The neutron-diffraction re sults indicate the presence of short-range ferromagnetic fluctuations in this sample. The results are discussed in the context of a Ruderman -Kittel-Kasuya-Yosida model. A three-dimensional (T,x,p) magnetic phas e diagram is presented.