Magnetic properties of x(Fe2O3)·(100-x)[P2O5·Li2O] and x(Fe2O3)·(100-x)[P2O5·CaO] glass systems

Abstract

Magnetic properties of x(Fe2O3)·(100-x)[P2O5 ·Li2O] and x(Fe2O3)·(100-x)[P2O5 ·CaO] with 0 < x ≤ 50 mol % were investigated using magnetic susceptibility measurements. The both glass systems were prepared in the same condition. The valence states and the distribution of iron ions in the glass matrix depend on the Fe2O3 content. For the P2O5·CaO glass matrix with x≤35mol%, the data revealed iron ions as isolated or participating in dipole-dipole interaction. For x > 35 mol% an antiferromagnetic coupling is observed. For the P2O5·Li2O glass matrix, the iron ions behave magnetically similarly as in other oxide glasses, but concentration of Fe2O3 over which magnetic superexchange interactions occur is lower. The absolute magnitude of θp values increases when content of Fe2O3 are increased. If the content of the magnetic ions is increased in the glass, the exchange integral increased and as a result the magnitude of the θP increases.