Investigating the Skyrmion Phase Diagram in Polycrystalline Chemically Substituted Cu₂OSeO₃ with Small Angle Neutron Scattering

The chiral helimagnet Cu₂OSeO₃ is now understood to host a variety of interesting magnetic phases. The stability of these phases is sensitive to many parameters, including magnetic field and temperature history, magnetic field direction, and chemical tuning. Here, we discuss results studying the magnetic phase diagram of chemically substituted polycrystalline (Cu_1-xM_x)₂OSeO₃, M = (Ag, Zn), and Cu₂(O_1-xS_x)₂SeO₂ with bulk magnetization and small angle neutron scattering (SANS). Notably, we perform SANS measurements after rotation of our powdered samples in a magnetic-field to resolve 6-fold symmetric skyrmion lattice diffraction patterns. This allows us to gleam information about the skyrmion lattice order and magnetocrystalline anisotropy. Bulk magnetization suggests an enhancement of skyrmion temperature stability in the Ag and S substituted samples, while SANS suggests a generic decrease in the ability of field rotation to align skyrmion lattices in chemically disordered systems. Additionally, we are unable to confirm the presence of a second skymion phase in Zn substituted samples.