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O: Fachverband Oberflächenphysik
O 34: Metal Substrates: Structure, Epitaxy and Growth
O 34.7: Poster
Dienstag, 17. März 2015, 18:15–21:00, Poster A
Temperature-dependent surface structure of in-situ cleaved TlNi2Se2 investigated by STM — •Martin Schmitt1, Tobias Mauerer1, Paolo Sessi1, Hangdong Wang2, Qianhui Mao2, Minghu Fang2, and Matthias Bode1 — 1Physikalisches Institut, Experimentelle Physik II, Universität Würzburg, Am Hubland, D-97074 Würzburg, Germany — 2Department of Physics, Zhejiang University, Hangzhou 310027, People’s Republic of China
Recently, the Ni-chalcogenide TlNi2Se2 has been identified
as a heavy-fermion multiband superconductor with a critical temperature TC = 3.7 K [1].
We have investigated the temperature-dependent surface structure of in-situ cleaved TlNi2Se2
by means of low- and variable-temperature scanning tunneling microscopy.
The cleaving process leads to large atomically flat (001) surfaces with typical terrace width that exceed 100 nm.
These terraces are separated by step edges which—in the vast majority of cases—are multiples of the Tl–Tl layer spacing, dTl−Tl = c/2 = 6.72 Å.
Our results indicate that the TlNi2Se2 surface structure at T ≤ 120 K
critically depends on the sample temperature during the cleaving process.
Low-temperature cleavage leads to a surface which is dominated
by a square-shaped (√2 × √2) superstructure and coexisting stripes of a (2 × 1) structure.
In contrast, samples cleaved at room temperature exhibit a more irregular “worm-like” superstructure.
Temperature-dependent STM data show an irreversible transition from the former to the latter
at a temperature above of about 130 K upon heating.
Hangdong Wang et al., Phys. Rev. Lett.111, 207001 (2013).