We present a combined scanning tunneling microscopy and ultraviolet photoelectron spectroscopy investigation on the formation and evolution of one-dimensional (1D) Cs chains on the InAs(110) surface. At 40% of saturation coverage, the linear phase evolves into a two-dimensional (2D) cluster layer. Each Cs nanowire, several hundreds of angstroms long, is aligned along the [1(1) over bar 0] direction. The Cs chain phase presents different adsorption sites, as deduced by the Cs 5p core-level lineshape and STM. The coverage dependence of the mean interchain distance shows that the Cs nanowires repel each other in the [001] direction, even when they are about 50 Angstrom apart. A repulsive long-range dipole-like interaction influences the mesoscopic properties of the chain phase. The binding energy shift of the Cs core levels can be quantitatively explained, taking into account the Cs depolarization as a function of the chain-chain distance. (C) 2000 Elsevier Science B.V. All rights reserved.
Evolution of one-dimensional Cs chains on InAs(110) as determined by scanning-tunneling microscopy and core-level spectroscopy / Modesti, S; Falasca, A; Polentarutti, M; Betti, Mg; DE RENZI, Valentina; Mariani, C.. - In: SURFACE SCIENCE. - ISSN 0039-6028. - STAMPA. - 447:1-3(2000), pp. 133-142. [10.1016/S0039-6028(99)01155-3]
Evolution of one-dimensional Cs chains on InAs(110) as determined by scanning-tunneling microscopy and core-level spectroscopy
DE RENZI, Valentina;
2000
Abstract
We present a combined scanning tunneling microscopy and ultraviolet photoelectron spectroscopy investigation on the formation and evolution of one-dimensional (1D) Cs chains on the InAs(110) surface. At 40% of saturation coverage, the linear phase evolves into a two-dimensional (2D) cluster layer. Each Cs nanowire, several hundreds of angstroms long, is aligned along the [1(1) over bar 0] direction. The Cs chain phase presents different adsorption sites, as deduced by the Cs 5p core-level lineshape and STM. The coverage dependence of the mean interchain distance shows that the Cs nanowires repel each other in the [001] direction, even when they are about 50 Angstrom apart. A repulsive long-range dipole-like interaction influences the mesoscopic properties of the chain phase. The binding energy shift of the Cs core levels can be quantitatively explained, taking into account the Cs depolarization as a function of the chain-chain distance. (C) 2000 Elsevier Science B.V. All rights reserved.
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