6533b822fe1ef96bd127d5a9

RESEARCH PRODUCT

On the Ground State Structure of Adsorbed Monolayers: Can One Find them by Monte Carlo Simulation?

Kurt BinderStefan SokołowskiA. Patrykiejew

subject

Materials scienceComputational chemistryMetastabilityMonolayerMonte Carlo methodDynamic Monte Carlo methodInteratomic potentialHexagonal latticeCubic crystal systemGround stateMolecular physics

description

While the classical ground state structure of an atomic monolayer adsorbed at a noncorrugated perfectly flat substrate trivially is a triangular lattice, the spacing being the minimum of the interatomic potential, nontrivial structures occur on corrugated substrates. This problem is exemplified for the (100) face of a face-centered cubic crystal, varying both the density of the adsorbed monolayer and the strength of the potential due to the surface. Increasing the density beyond that of the commensurate c(2 x 2) structure, incommensurate patterns become stable with “heavy” walls (HW) oriented along the face diagonals [including the “crossing heavy walls” (CRHW) phase]. It is shown that slow cooling Monte Carlo simulations end up by frozen-in metastable irregular domain patterns, however. States with lower energy can be found by relaxation of suitably chosen regular domain patterns.

yearjournalcountryeditionlanguage
2002-01-01
https://doi.org/10.1007/978-3-642-59406-9_8