Magnetic-Field Induced Instability Surrounding the {{A}}-Phase of {{MnSi}}: {{Bulk}} and {{SANS}} Measurements

We have determined the boundary of the magnetic A-phase of MnSi from distinct changes of slope in the AC susceptibility for magnetic field B applied parallel to the crystallographic $\langle$100$̊angle$, $\langle$110$̊angle$ and $\langle$111$̊angle$ directions. The specific heat displays an anomaly of a few percent at the border of the A-phase characteristic of a well-defined phase transition. In addition to the previously reported change of orientation of the helical modulation in the A-phase, we observe a gradual appearance of a ring of neutron small-angle scattering intensity that extends over the field and temperature regime of the A-phase. The estimated integrated intensity of this ring is a sizable fraction of the intensity in the helically ordered state, thus indicating that the change of the magnetic structure near the A-phase cannot be interpreted in terms of an abrupt change of orientation of a simple helical modulation alone.     «

We have determined the boundary of the magnetic A-phase of MnSi from distinct changes of slope in the AC susceptibility for magnetic field B applied parallel to the crystallographic $\langle$100$̊angle$, $\langle$110$̊angle$ and $\langle$111$̊angle$ directions. The specific heat displays an anomaly of a few percent at the border of the A-phase characteristic of a well-defined phase transition. In addition to the previously reported change of orientation of the helical modulation in the A-phase,...     »