Canted antiferromagnetism in high purity NaFeF3 prepared by a novel wet-chemical synthesis method

Abstract

We report a novel synthesis method for, and structural and magnetic characterization of the fluoroperovskite NaFeF3. We have developed a wet-chemical method that allows preparation of large volumes of air-sensitive fluoroperovskites with high purity. NaFeF3 has a N\'eel temperature (TN) of 90 K and a Weiss constant (θ) of -124 K, corresponding to dominant antiferromagnetic interactions. Below TN, a slight difference is observed between zero-field and field cooled samples, indicating spin-canting and weak ferromagnetism. AC magnetometry confirms that weak ferromagnetism is inherent to NaFeF3 and not due to impurities. From powder neutron diffraction data, we describe the magnetic structure precisely as a weakly canted G-type (magnetic space group Pn'ma'). A ferromagnetic component is allowed in Pn'ma', however, this component may be absent in zero magnetic fields and is too small to be confirmed on the basis of powder neutron diffraction data.