Vortex dynamics and second magnetization peak in the iron-pnictide superconductor Ca0.82La0.18Fe0.96Ni0.04As2

We report the studies of detailed magnetic relaxation and isothermal magnetization measurements in the vortex state of the 112-type iron-pnictide Ca$_{0.82}$La$_{0.18}$Fe$_{0.96}$Ni$_{0.04}$As$_2$ superconductor with $T_c$ $\sim$ 22 K. In the isothermal $M(H)$, a well defined second magnetization peak (SMP) feature is observed in the entire temperature range below $T_c$ for measurements with $H$ $\parallel$ $c$-axis. However, for $H$ $\parallel$ $ab$-planes, the SMP feature is suppressed at low temperatures, which might be due to 2D Josephson vortices forming at low temperatures and high magnetic fields in such an anisotropic system. A rigorous analysis considering the magnetic relaxation data for $H$ $\parallel$ $c$-axis suggests an elastic to plastic pinning crossover across $H_p$, which also seems accompanied with a possible phase transition in vortex lattice near $H_p$. Moreover, point disorder and surface defects are likely to be the dominant sources of pinning, which contribute to the $\delta l$-type of pinning in the sample. A high $J_c$, in access of 10$^5$ A/cm$^2$ observed could potentially make this material technologically important.