Structural and magnetic properties of 3d transition metal oxide chains on the (001) surfaces of Ir and Pt

@article{Schmitt2019StructuralAM,
  title={Structural and magnetic properties of 
3d
 transition metal oxide chains on the (001) surfaces of Ir and Pt},
  author={Martin Schmitt and Chong H. Park and Paul. Weber and Andreas J{\"a}ger and Jeannette Kemmer and Matthias Vogt and Matthias Bode},
  journal={Physical Review B},
  year={2019}
}
We present a survey of the structural and magnetic properties of submonolayer transition metal dioxides on the (001) surfaces of the heavy face-centered cubic noble metals Ir and Pt performed by spin-averaged scanning tunneling microscopy (STM) and spin-polarized (SP) STM. Our STM results confirm that deposition of Co, Fe, Mn, and Cr on the $(2\ifmmode\times\else\texttimes\fi{}1)$ oxygen-reconstructed Ir(001) surface leads to the formation of quasi-one-dimensional chains with a $(3\ifmmode… 
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References

SHOWING 1-10 OF 50 REFERENCES

Monatomic Co, CoO 2 , and CoO 3 nanowires on Ir(100) and Pt(100) surfaces: Formation, structure, and energetics

In this study we investigate the structural and chemical changes of monatomic CoO$_2$ chains grown self-organized on the Ir(100) surface [P. Ferstl et al., PRL 117, 2016, 046101] and on Pt(100) under

Self-Organized Growth, Structure, and Magnetism of Monatomic Transition-Metal Oxide Chains.

The growth of oxide chains of binary alloys of Co and Ni or Fe on Ir(100) allows us to produce well-controlled ensembles of ferromagnetic chains of different lengths separated by nonmagnetic or antiferromagnetic segments.

Surface reconstruction of Pt(001) quantitatively revisited

The complex hexagonal reconstructions of the (001) surfaces of platinum and gold have been under debate for decades. Here, the structural details of the Pt(001) reconstruction have been

Correlation of dislocation and domain structure of Cr(001) investigated by spin-polarized scanning tunneling microscopy

The Cr(001) surface has been investigated by spin-polarized scanning tunneling microscopy to image various defects and their effect on the magnetic structure at the surface. The usual magnetic

Structural, electronic, and magnetic properties of a Mn monolayer on W(110)

In this paper we establish a monolayer of Mn on W~110! as a model system for two-dimensional itinerant antiferromagnetism. Combining scanning tunneling microscopy ~STM!, low-energy electron

Giant magnetization canting due to symmetry breaking in zigzag Co chains on Ir(001)

We demonstrate a canted magnetization of biatomic zigzag Co chains grown on the (5 × 1) reconstructed Ir(001) surface using density functional theory (DFT) calculations and spin-polarized scanning

Unusual bridged site for adsorbed oxygen adatoms: Theory and experiment for Ir{100}–(1×2)–O

The structure of oxygen adsorbed on Ir{100} has been determined by density functional theory slab calculations and quantitative low energy electron diffraction. The two studies produce essentially

Ab initio study of the Fe intra- and inter-layer magnetic order in Fe/Ir(001) superlattices

An ab initio study of the magnetic behaviour of strained Fe/Ir(001) superlattices is presented using the first principle Augmented Spherical Wave method. First, the intralayer magnetic order of the