Ferromagnetism and insulating behavior with a logarithmic temperature dependence of resistivity in Pb10-xCux( PO4 ) 6O

Abstract

Recent claim of discovering above-room-temperature superconductivity (Tc about 400 K) at ambient pressure in copper doped apatite Pb10( PO4 ) 6O has stimulated world-wide enthusiasm and impulse of motion. A lot of follow-up works have been carried out with controversial conclusions. To check whether superconductivity is really present or absent in the material, we need samples which should have a rather pure phase of Pb10-xCux( PO4 ) 6O. Here we report the characterization results from the Pb10-xCux( PO4 ) 6O with a fraction of about 97 wt.% inferred from the fitting to the x-ray diffraction pattern. The resistivity measurements show that it is a semiconductor characterized roughly by a ln(1/T) temperature dependence in wide temperature region without trace of superconductivity. Magnetization measurements show that it has a general ferromagnetic signal with a weak superparamagnetic background. Many grains of the sample show clear interactions with a NbFeB magnet. The detected Cu concentration is much lower than the expected nominal one and the conduction may be improved if more Cu atoms are successfully doped into the system. Our results show the absence of metallicity and superconductivity in Pb10-xCux( PO4 ) 6O at ambient pressure, and suggest the presence of strong correlation effect.