Mössbauer study of ultrafine FeF2 particles

Ultrafine antiferromagnetic FeF₂ particles (<10 nm) were prepared by a new technique, viz, the SF₆-sensitized infrared photodecomposition of Fe(CO)₅ induced by a transversely excited atmospheric (TEA) CO₂ laser. The magnetic properties have been examined by⁵⁷Fe Mössbauer spectroscopy. At low temperatures the magnetic hyperfine field decreases faster with increasing temperature than the hyperfine field of the bulk; this behavior appears to be consistent with collective magnetic excitations. The transition between the paramagnetic and antiferromagnetic states takes place at a higher temperature and over a broader range as compared to the bulk. FeF₂ ultrafine particles are relatively sensitive to oxidation; cubic-type iron oxide is formed.