Critical behavior of La0.825Sr0.175MnO2.912 anion-deficient manganite in the magnetic phase transition region

For La-0.825(3+) Sr-0.175(2+) Mn3+ O-2.912(2-) anion-deficient manganite, the specific magnetization, the dynamic magnetic susceptibility, and the heat capacity are investigated. This material is found to be an inhomogeneous ferromagnet below the Curie point T-C approximate to 122 K, which is much lower than the Curie point determined for the stoichiometric composition (T-C approximate to 268 K). An increase in magnetic field by two orders of magnitude leads to an increase in the Curie temperature by Delta T approximate to 12 K. The presence of oxygen vacancies leads to the frustration of a part, namely, V-fr approximate to 22%, of the indirect Mn3+-O-Mn3+ exchange interactions, but the spin glass state is not realized. The ferromagnetic matrix of the material under study is characterized by a scatter in the exchange interaction intensities. The heat capacity is found to exhibit an anomalous behavior. Based on the Banerjee magnetic criterion, it is established that the ferromagnet-paramagnet transition observed for La-0.825(3+) Sr-0.175(2+) Mn3+ O-2.912(2-) anion-deficient manganite is a second-order thermodynamic phase transition. The mechanism and origin of the critical behavior of the system under investigation are discussed.