@misc{haenke_absence_of_2005, author={Haenke, T.,Krause, S.,Berbil-Bautista, L.,Bode, M.,Wiesendanger, R.,Wagner, V.,Lott, D.,Schreyer, A.}, title={Absence of the spin-flip transition on Cr(001): A combined spin-polarized scanning tunnelling microscopy and neutron scattering study}, year={2005}, howpublished = {journal article}, doi = {https://doi.org/10.1103/PhysRevB.71.184407}, abstract = {The spin-density wave (SDW) on Cr(001) has been investigated at temperatures between 20–300 K by means of spin-polarized scanning tunneling microscopy (SP-STM). Although neutron-scattering data measured on the same crystal clearly show a spin-flip transition from a transversal (T)-SDW to a longitudinal (L)-SDW at the expected spin-flip (SF) temperature TSF=123 K, no change was found on the Cr(001) surface with SP-STM. Throughout the entire temperature range the Cr(001) surface maintains a topological antiferromagnetic order with an in-plane magnetization that inverts between adjacent atomically flat terraces separated by monatomic step edges. The experimental results are interpreted by an absence of a spin-flip transition in the near-surface region probably driven by the surface anisotropy. The continuous connection of the surface T-SDW to the bulk L-SDW is accomplished by the formation of a 90° domain wall just below the surface.}, note = {Online available at: \url{https://doi.org/10.1103/PhysRevB.71.184407} (DOI). Haenke, T.; Krause, S.; Berbil-Bautista, L.; Bode, M.; Wiesendanger, R.; Wagner, V.; Lott, D.; Schreyer, A.: Absence of the spin-flip transition on Cr(001): A combined spin-polarized scanning tunnelling microscopy and neutron scattering study. Physical Review B. 2005. vol. 71, no. 18, 184407. DOI: 10.1103/PhysRevB.71.184407}}