Critical behavior studies in Ti-substituted lanthanum bismuth perovskite manganites

• Critical behavior studies around phase transition in novel material.
• Synthesized by conventional solid state route method.
• The critical acclaim of magnetic phase transition is addressed using various models.
• The outcome of this research work is satisfied with the existing literature.
• This study finds importance in understanding rich physics of magnetism with non magnetic Ti as substitution.

Perovskite manganite La0.4Bi0.6Mn1−xTixO3 (x = 0.05 and 0.1) synthesized using conventional solid state route method give rise to critical phenomenon in their magnetic interactions due to the substitution of non magnetic Ti ions. The critical behavior is observed near paramagnetic–ferromagnetic transition and is studied by magnetization measurements. Various techniques like Modified Arrott plot, Kouvel–Fisher method, scaling equation of state analysis and the critical magnetization isotherm were used to analyze the magnetization data on magnetic phase transition. The values of critical exponents β and γ obtained using different techniques are in good agreement. The obtained critical exponents are found to follow scaling equation with the magnetization data scaled into two different curves below and above the transition temperature, TC. This confirms that the critical exponents and TC are reasonably accurate. The obtained critical exponents for both the samples deviates from mean-field model and do not completely follow the static long range ferromagnetic ordering. This behavior is consistent with non magnetic nature of Ti substituted at Mn site and can be associated with Griffiths phase like phenomenon.