We investigate the mobility of one-dimensional n-adatom chains deposited on the (110)(1x2) metal surface. All known diffusion mechanisms are taken into account; dissociation-reassociation processes are also included. On the missing-row reconstructed surface, diffusion may proceed via the leapfrog mechanism. Through a set of analytical calculations we find the law describing leapfrog-induced diffusion for every n. It turns out that in a wide range of n, at typical experimental temperatures, chain mobility may be independent of the chain length. As a consequence, even long chains are expected to display a significant mobility. On the contrary, on the (110)(1x1) surfaces, where the leapfrog diffusion mechanism is not present, tetramers are already practically motionless.
Montalenti, F., Ferrando, R. (2000). Mobility of atomic chains on channeled surfaces. THE JOURNAL OF CHEMICAL PHYSICS, 113(1), 349-356 [10.1063/1.481799].
Mobility of atomic chains on channeled surfaces
MONTALENTI, FRANCESCO CIMBRO MATTIA;
2000
Abstract
We investigate the mobility of one-dimensional n-adatom chains deposited on the (110)(1x2) metal surface. All known diffusion mechanisms are taken into account; dissociation-reassociation processes are also included. On the missing-row reconstructed surface, diffusion may proceed via the leapfrog mechanism. Through a set of analytical calculations we find the law describing leapfrog-induced diffusion for every n. It turns out that in a wide range of n, at typical experimental temperatures, chain mobility may be independent of the chain length. As a consequence, even long chains are expected to display a significant mobility. On the contrary, on the (110)(1x1) surfaces, where the leapfrog diffusion mechanism is not present, tetramers are already practically motionless.
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