Antiferromagnetic and nematic phase transitions in BaF e 2 ( A s 1 − x P x ) 2 studied by ac microcalorimetry and SQUID magnetometry

We study the antiferromagnetic (AFM) and structural phase transitions in single crystal $BaFe_2(As_{1-x}P_x)_2$ $(x=0, 0.3)$ at temperatures $T_N$ and $T_S$, respectively, by high resolution ac microcalorimetry and SQUID magnetometry. The specific heat measurements of both as grown and annealed $BaFe_2As_2$ displays a sharp peak at the AFM/Structural transitions. A kink in the entropy of annealed $BaFe_2As_2$ gives evidence for splitting of the two transitions by approximately 0.5K. No additional features could be identified in the specific heat of both $BaFe_2As_2$ and $BaFe_2(As_{0.7}P_{0.3})_2$ in the temperature regions around $T^*$ > $T_S$ where torque measurements [S. Kasahara et al., Nature 486, 382 (2012)] had revealed the "true" nematic phase transition, indicating that the behavior at $T^*$ does not represent a 2nd order phase transition, and that the phase transition of $BaFe_2(As_{1-x}P_x)_2$ into the orthorhombic phase does occur at $T_S$.