Reconstruction of the (001) Surface of Si from Molecular Dynamics
J.M. Holender and Cz. Jędrzejek
Departament of Physics, Jagellonian University, ul. Reymonta 4, 30-059 Kraków, Poland
Received: August 8, 1990
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The reconstruction of the (001) surface of Si at various temperatures is studied using molecular dynamics with many-body interactions. Two types of potentials were used: the Stillinger-Weber (SW), and Pearson and co-workers Axilrod-Teller type potential (AT). For Stillinger-Weber potential at low temperatures the (2x1) dimer reconstruction is about 0.07 eV per surface atom more preferable than the c(2x2)structure which is in agreement with the experimental reconstruction observed by STM. Contrary, for Axilrod-Teller type potential the c(2x2) structure is lower by 0.2 eV than the (2x1) structure. The silicon surface is stable up to 1500 K, all the dimers remain unbroken but some of them are tilted. The energies of various defects (suggested by STM studies) like single vacancy, two adjacent Si atoms vacancy, dimer vacancy, dimer vacancy with lower layer atoms rebonding and double dimer vacancy are estimated.
DOI: 10.12693/APhysPolA.79.117
PACS numbers: 68.35.Bs, 68.35.Md