Response of the skyrmion lattice in MnSi to cubic magnetocrystalline anisotropies

Abstract

We report high-precision small angle neutron scattering of the orientation of the skyrmion lattice in a spherical sample of MnSi under systematic changes of the magnetic field direction. For all field directions the skyrmion lattice may be accurately described as a triple-Q state, where the modulus Q is constant and the wave vectors enclose rigid angles of 120. Along a great circle across 100, 110, and 111 the normal to the skyrmion-lattice plane varies systematically by 3 with respect to the field direction, while the in-plane alignment displays a reorientation by 15 for magnetic field along 100. Our observations are qualitatively and quantitatively in excellent agreement with an effective potential, that is determined by the symmetries of the tetrahedral point group T and includes contributions up to sixth-order in spin-orbit coupling, providing a full account of the effect of cubic magnetocrystalline anisotropies on the skyrmion lattice in MnSi.