The processes of ordering and formation of two-dimensional glasses at metal surfaces |
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Authors: | AG Fedorus MA Mukhtarov YuS Vedula |
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Institution: | a Institute of Physics, National Academy of Sciences of Ukraine, 46 Prospect Nauki, UA-03028, Kiev 28, Ukraine b Institut f?r Festk?rperphysik, Universität Hannover, Appelstrasse 2, D-30167 Hannover, Germany |
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Abstract: | Using the experimental results obtained for the Dy-Mo(1 1 2) system, we discuss the possibilities and mechanisms of formation of two-dimensional (2D) glasses on metal surfaces. It has been found that in the coverage range 0.07 < θ < 0.58, ordered Dy superstructures formed and observed at T < 400 K are irreversibly destroyed by annealing to higher temperatures and turn into an amorphous (glass) structure on cooling. It is supposed that this conversion is caused by the formation, at T > 400 K, of a Dy-Mo surface alloy in which the rate of Dy surface diffusion is strongly reduced in comparison with its value in the absence of alloying. As a result, the mobility of Dy adatoms becomes too low at the temperatures corresponding to the ordered equilibrium state of the surface, and this state cannot be achieved in reasonable relaxation time. This interpretation is corroborated by the experimental data on substantial suppression of surface diffusion in some coadsorbed layers. Since surface glasses contact with ordered (crystalline) substrates, their structure may have a peculiar character different from that of “conventional” metal glasses. Surface glasses can find a number of applications as rather stable systems that combine low dimensionality, specific electronic structure of their constituents and extremely high density of defects. |
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Keywords: | Adsorbate structure Glass transitions Kinetics of annealing Surface phase transitions Surface diffusion LEED Work function measurements Surface structure Glass surfaces |
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