【 摘 要 】

We report measurements of the magnetic, transport, and thermal properties of the Heusler-type compound Fe2VAl0.95. We show that while stoichiometric Fe2VAl is a nonmagnetic semimetal a 5% substitution on the Al site with the 3d elements Fe and V atoms leads to a ferromagnetic ground state with a Curie temperature T-C=33 +/- 3 K and a small ordered moment mu(s)=0.12 mu(B)/Fe in Fe2VAl0.95. The reduced value of the ratio mu(s)/mu(p)=0.08, where mu(p)=1.4 mu(B)/Fe is the effective Curie-Weiss moment, together with the analysis of the magnetization data M(H, T), show magnetism is of itinerant nature. The specific heat shows an unusual temperature variation at low temperatures with an enhanced Sommerfeld coefficient, gamma=12 mJ K-2 mol(-1). The resistivity, rho(T), is metallic and follows a power law behavior rho=rho(0)+AT(n) with n approximate to 1.5 below T-C. With applying pressure, T-C decreases with the rate of (1/TC)(dT(C)/dP)=-0.061 GPa(-1). We conclude substitution on the Al site with Fe and V atoms results in itinerant ferromagnetism with a low carrier density.

【 授权许可】

Free