Paramagnetism, superparamagnetism, and spin-glass behavior in bulk amorphous Pd-Ni-Fe-P alloys

We have investigated the magnetic properties of bulk amorphous Pd40Ni40-xFe xP20 (x = 0-17.5) alloys. For Pd40Ni40P20 (x = 0), the magnetic susceptibil ity consists of temperature-independent and Curie-Weiss-type terms. Alloys with x greater than or equal to 5 are paramagnetic at high temperatures. Wi th decreasing temperature, the amorphous alloys become superparamagnetic. A t even lower temperatures, and under a weak applied magnetic field, these a lloys are spin glasses, as evidenced by static and dynamic magnetic measure ments. The spin-freezing temperature increases with increasing iron content and this is attributed to the role of the Ruderman-Kittel-Kasuya-Yosida in teraction in creating the spin-glass state. The occurrence of a reentrant s pin-glass behavior on cooling (superparamagnetism-to-ferromagnetism-to-spin -glass transition) is also observed for x = 17.5 at a field greater than or equal to 50 Oe. An unexpected result is that the ferromagnetic state in th e present bulk metallic glasses is field induced. Evidence for the field-in duced ferromagnetic-like order is obtained from (a) straight regions in the susceptibility versus temperature curves measured at various fields, (b) a n Arrott plot, and (c) time-independent magnetization. With increasing appl ied field, the spin-freezing temperature decreases and the Curie temperatur e increases, broadening the temperature range of the field-induced ferromag netic-like state. The temporal decay of the thermoremanent magnetization in the amorphous alloy with x = 17.5 is slower than that in typical crystalli ne spin glasses. The spin-freezing temperature of the amorphous alloy with x = 17.5 decreases approximately logarithmically with applied field, which differs from the prediction of Neel's model for spin glasses. (C) 1999 Amer ican Institute of Physics. [S0021-8979(99)01108-1].