Berlin 2008 – wissenschaftliches Programm
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O: Fachverband Oberflächenphysik
O 35: Symposium: Atomic Wires at Surfaces II
(Invited Speakers: Erio Tosatti, Serge Lemay, Shuji Hasegawa)
O 35.4: Vortrag
Dienstag, 26. Februar 2008, 15:00–15:15, HE 101
ELS-LEED investigations of Dy-silicide nanostructures on Silicon — •Svend Vagt1, Eddy Patrick Rugeramigabo1, Tadaaki Nagao2, and Herbert Pfnür1 — 1Institut für Festkörperphysik, Leibniz Universität Hannover, Germany — 2National Institute for Materials Science, Tsukuba, Japan
Dysprosium silicide nanostructures have been grown by depositing up
to 1ML of Dy on Si(111) and on vicinal Si(001) substrates.
Ultra-high vacuum conditions (p ≤ 1× 10−10 mbar during
Dy deposition) are prerequisite to avoid Dy oxidation. The atomic
and electronic properties have been investigated using ELS-LEED,
which allows the simultaneous study of geometric and electronic
properties at the same point in k-space with both high momentum and energy resolution.
Deposition of 1ML of Dy on Si(111) at RT followed by annealing at
500∘C results in a flat monolayer with DySi2
stoichiometry. The diffraction pattern revealed the typical
1×1 structure. A 2D-Plasmon dispersion is reported for the
first time with a √q|| behavior up to q||=0.08 Å−1 in k-space.
High quality arrays of parallel nanowires have been grown on
4∘-vicinal Si(001) at 500∘C for a Dy coverage around
0.4ML. A n×2 periodicity has been found, with n shifting
from 10 to 7 for increasing coverage up to 0.75ML. The energy loss
disperses only in the direction along the nanowires, whereas in the
perpendicular direction the plasmon can not be excited. The plasmon
dispersion turned out to be a quasi-1D-plasmon. It has been accurately
simulated by explicitely taking into account the finite width of the DySi2
nanowire structures. Interactions between adjacent nanowires play a minor role.