Probing the superconducting gap symmetry of PrOs$_{4}$Sb$_{12}$: A penetration depth study

We report measurements of the magnetic penetration depth $λ$ in single crystals of PrOs$_{4}$Sb$_{12}$ down to $\sim$0.1 K using a tunnel-diode based, self-inductive technique at 21 MHz, with the ac field applied along the \textit{a}, \textit{b} and \textit{c} directions. In all three field orientations the penetration depth and superfluid density $ρ_{s}$ tend to follow a power law, $λ\sim \mathit{T}^{2}, ρ_{s} \sim \mathit{T}% ^{2}$ at low temperatures. $ρ_{s}$ for various gap functions have been calculated, and data is best fit by the $^{3}$He A-phase-like gap with multidomains, each having two point nodes along a cube axis, and parameter $Δ_{0}$(0)/\textit{k}$_{B}$\textit{T}$_{c}$ = 2.6. This suggests that PrOs$_{4}$Sb$_{12}$ is a strong-coupling superconductor with two point nodes on the Fermi surface. We also confirm the observation of the double transitions at 1.75 K and 1.85 K seen in other measurements.