Low Temperature Specific Heat of Optimally Doped BaFe_(2-x)TM_xAs₂ (TM = Co and Ni) Single Crystals: Constraint on the Pairing Gap

Low temperature specific heat has been measured in optimally doped and highly overdoped non-superconducting BaFe$_{2-x}$TM$_x$As$_{2}$ ($TM$ = Co and Ni) single crystals. By using the data of the overdoped samples, we successfully removed the phonon contribution of the optimally doped ones, and derived the electronic specific heat coefficient $\gamma_e$. Remarkably, we found a continuing temperature dependent $\gamma_e(T)$ which follows the quadratic relation $\gamma_e=\gamma_0+\alpha T^2$ in the low temperature limit. Together with the very small residual term $\gamma_0$, linear magnetic field dependence of $\gamma_e$, it is concluded that there are either small segments of nodal lines, or point-like nodes in these samples.