MBE Growth and Characterization of Thin Films of the Axion Insulator Candidate EuIn₂As₂

EuIn₂As₂ is an antiferromagnetic topological material theoretically predicted to host the axion insulator state.[1] While these states have been theoretically proposed, their experimental realization is still actively being pursued. In this work, we have successfully developed a molecular beam epitaxy growth scheme for c-axis oriented EuIn₂As₂ thin films and identified a high temperature regime necessary to stabilize the Zintl phase of the material. Magnetometry studies on our films reproduce characteristic magnetic properties of bulk single crystals of EuIn₂As₂.[2] The films exhibit the expected (ab)-plane magnetic easy axis and a Neel temperature close to 16 K. Magnetotransport measurements show our films are p-type with charge carrier densities varying between (3.7 - 7.5)×10¹⁹ cm^-3 comparable to that of bulk crystals.[3] Successfully synthesizing thin films of EuIn₂As₂ serves as a vital step towards the realization of its predicted topological properties.