Single crystal growth and physical properties of the layered arsenide BaRh2As2

Abstract

Single crystals of BaRh2As2 have been synthesized from a Pb flux. We present the room temperature crystal structure, single crystal x-ray diffraction measurements as a function of temperature T, anisotropic magnetic susceptibility versus T, electrical resistivity in the ab-plane versus T, Hall coefficient versus T and magnetic field H, and heat capacity C versus T measurements on the crystals. The single crystal structure determination confirms that BaRh2As2 forms in the tetragonal ThCr2Si2 type structure (space group I4/mmm) with lattice parameters a = b = 4.0564(6) and c = 12.797(4) . Band structure calculations show that BaRh2As2 should be metallic with a small density of states at the Fermi energy N(E F) = 3.49 states/eV f.u. (where f.u. formula unit) for both spin directions. (T) data in the ab-plane confirm that the material is indeed metallic with a residual resistivity (2K) = 29 μ cm, and with a residual resistivity ratio (310K)/(2K) = 5.3. The observed (T) is small ( 10-5 cm3/mol) and weakly anisotropic with ab/ c ≈ 2. The C(T) data indicate a small density of states at the Fermi energy with the low temperature Sommerfeld coefficient γ = 4.7(9) mJ/mol K2. There are no indications of superconductivity, spin density wave, or structural transitions between 2K and 300K. We compare the calculated density of states versus energy of BaRh2As2 with that of BaFe2As2.