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Electronically driven phase transitions in a quasi-one-dimensionaladsorbate system |
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| Authors: | P. Amann M. Cordin Ch. Braun B. A.J. Lechner A. Menzel E. Bertel C. Franchini R. Zucca J. Redinger M. Baranov S. Diehl |
| Affiliation: | 1. Institute of Physical Chemistry, University of Innsbruck, Innrain 52a, 6020, Innsbruck, Austria 2. Faculty of Physics, University of Vienna, Sensengasse 8, 1090, Vienna, Austria 3. Institute of Applied Physics and Center for Computational Materials Science, Vienna University of Technology, Gu?hausstr. 25-25a, 1040, Vienna, Austria 4. Institute of Quantum Optics and Quantum Information - Austrian Academy of Sciences, Technikerstr. 21a, 6020, Innsbruck, Austria |
| Abstract: | A quasi-1D system is prepared using the Pt(110) surface as a template. The electronic surface resonance structure is studied by angle-resolved photoemission spectroscopy for the clean surface as well as for different Bromine coverages. A Fermi surface mapping reveals saddle points at the Fermi level in the interior of the surface Brillouin zone. Correspondingly, a maximum in the static response function χ(q, 0) at the connecting vector q is expected. With 1/2Gx < q < 2/3Gx one observes indeed a 3-fold periodicity around defects and a 2-fold periodicity at low temperature for ΘBr = 0.5 ML. Cooling of a defect-free c(2×2)-Br/Pt(110) preparation counter-intuitively results in a loss of long-range order. Motivated by DFT calculations this is attributed to an anomalous order-order phase transition into the (2×1) phase accompanied by intense, strongly anisotropic fluctuations within a temperature range of ~200 K. The peculiar behaviour is rationalised in terms of a competition between inter-adsorbate repulsion and an adsorbate triggered 2kF interaction in the substrate. |
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