Mn-based Heusler Compounds with Low Magnetization

Heusler compounds with small or zero magnetization are of interest for spintronics applications, because they cause little or no fringing fields and may exhibit ultrafast dynamics and high spin polarization [1-3]. We find virtually zero room-temperature magnetizations in stoichiometric Ru₂MnSn and Pt₂MnGa Heusler alloys fabricated by rapid quenching from the melt. X-ray diffraction patterns show the formation of a L2₁ structures with a = 6.22 Å and a tetragonal structure with a = 4.02 Å and c = 7.24 Å in Ru₂MnSn and Pt₂MnGa, respectively. Both systems show nearly linear M(H) curves for intermediate field strengths of several T, and the slopes dM/dH are used to characterize the spin structure. In Pt₂MnGa, which shows a helical spins structure with an ordering temperature of about 350 K [4], dM/dH increases with decreasing spiral wave vector q. The complex spin structures of Ru₂MnSn and Pt₂MnGa are used to explain the electron-transport properties of the alloys.

References
[1] W. Zhang et al., J. Phys. D 51, 255001 (2018).
[2] M.E. Jamer et al., Phys. Rev. Appl. 7, 064036 (2017).
[3] A. Hirohata et al., J. Phys. D 50, 443001 (2017).
[4] S. Singh et al., Nat. Comm. 7, 12671 (2016).