Thin film quantum materials

Imaging and manipulation of skyrmion lattice domains in Cu2OSeO3

(2016)

Authors:

SL Zhang, A Bauer, H Berger, C Pfleiderer, G van der Laan, T Hesjedal

Strain in epitaxial MnSi films on Si(111) in the thick film limit studied by polarization-dependent extended x-ray absorption fine structure

(2016)

Authors:

AI Figueroa, SL Zhang, AA Baker, R Chalasani, A Kohn, SC Speller, D Gianolio, C Pfleiderer, G van der Laan, T Hesjedal

Realisation of magnetically and atomically abrupt half-metal/semiconductor interface: Co2FeSi0.5Al0.5/Ge(111)

Scientific Reports Springer Nature 6:1 (2016) 37282

Authors:

Zlatko Nedelkoski, Balati Kuerbanjiang, Stephanie E Glover, Ana M Sanchez, Demie Kepaptsoglou, Arsham Ghasemi, Christopher W Burrows, Shinya Yamada, Kohei Hamaya, Quentin M Ramasse, Philip J Hasnip, Thomas Hase, Gavin R Bell, Atsufumi Hirohata, Vlado K Lazarov

Strain in epitaxial MnSi films on Si(111) in the thick film limit studied by polarization-dependent extended x-ray absorption fine structure

Physical Review B - Condensed Matter and Materials Physics American Physical Society (2016)

Authors:

AI Figueroa, SL Zhang, AA Baker, R Chalasani, A Kohn, SC Speller, D Gianolio, C Pfleiderer, G van der Laan, Thorsten Hesjedal

Abstract:

We report a study of the strain state of epitaxial MnSi films on Si(111) substrates in the thick film limit (100-500 A) as a function of film thickness using polarization-dependent extended x-ray absorption fine structure (EXAFS). All films investigated are phase-pure and of high quality with a sharp interface between MnSi and Si. The investigated MnSi films are in a thickness regime where the magnetic transition temperature Tc assumes a thickness-independent enhanced value of ≥43 K as compared with that of bulk MnSi, where Tc ≈ 29 K. A detailed refinement of the EXAFS data reveals that the Mn positions are unchanged, whereas the Si positions vary along the out-of-plane [111]-direction, alternating in orientation from unit cell to unit cell. Thus, for thick MnSi films, the unit cell volume is essentially that of bulk MnSi — except in the vicinity of the interface with the Si substrate (thin film limit). In view of the enhanced magnetic transition temperature we conclude that the mere presence of the interface, and its specific characteristics, strongly affects the magnetic properties of the entire MnSi film, even far from the interface. Our analysis provides invaluable information about the local strain at the MnSi/Si(111) interface. The presented methodology of polarization dependent EXAFS can also be employed to investigate the local structure of other interesting interfaces.

Imaging and manipulation of skyrmion lattice domains in Cu2OSeO3

Applied Physics Letters American Institute of Physics 109 (2016) 192406

Authors:

Shilei Zhang, Andreas Bauer, Helmuth Berger, Christian Pfleiderer, Gerrit van der Laan, Thorsten Hesjedal

Abstract:

Nanoscale chiral skyrmions in noncentrosymmetric helimagnets are promising binary state variables in highdensity, low-energy nonvolatile memory. Nevertheless, they normally appear in an ordered, single-domain lattice phase, which makes it difficult to write information unless they are spatially broken up into smaller units, each representing a bit. Thus, the formation and manipulation of skyrmion lattice domains is a prerequisite for memory applications. Here, using an imaging technique based on resonant magnetic x-ray diffraction, we demonstrate the mapping and manipulation of skyrmion lattice domains in Cu2OSeO3. The material is particularly interesting for applications owing to its insulating nature, allowing for electric fielddriven domain manipulation.