Experimental evidence for orthorhombic Fddd crystal structure in elemental yttrium above 100 GPa

We present electrical resistance measurements of elemental yttrium on bulk and film samples, and both exhibit superconductivity at very high pressures. We show that the pressure dependence of the superconducting transition temperature above 100 GPa is in good agreement with the predicted $Fddd$ phase by Chen et al. [Phys. Rev. Lett. 109, 157004 (2012)]. This result together with a Rietveld refinement made on x-ray data at 123 GPa from Samudrala et al. [J. Phys. Condens. Matter 24, 362201 (2012)] offer strong evidence that the atomic structure of yttrium above 100 GPa is orthorhombic $Fddd$. Furthermore, our process of evaporating yttrium film directly on a diamond anvil is expected to be a valuable asset for future synthesis of new superhydride superconductors.