Regensburg 2010 – wissenschaftliches Programm

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MM: Fachverband Metall- und Materialphysik

MM 40: Topical Session Growth Kinetics I

MM 40.1: Topical Talk

Mittwoch, 24. März 2010, 16:00–16:30, H4

Modeling the Role of Co-deposited Impurities in Growth: What Causes the Distinctive Step Meandering and Pyramidal Mounds on Cu(001)^* — •Theodore L. Einstein¹, Rajesh Sathiyanarayanan^1,2, Ajmi BH. Hamouda^1,3, and Alberto Pimpinelli^1,4 — ¹U. Maryland, College Park, USA — ²Now at Pennsylvania State U., USA — ³U. Monastir, Tunisia — ⁴UBP-Clermont II, France, & Science Attaché, French Consulate, Houston, TX USA

Several attempts—not involving impurities—failed to account for all the distinctive features of the growth instabilities observed on Cu vicinal surfaces;¹ recent kinetic Monte Carlo studies showed that codeposition of impurities during growth could do so.² To identify the responsible impurity, we compute³ nearest-neighbor binding energies (E_NN) and terrace diffusion barriers (E_d) for several impurity atoms on Cu(001) using VASP. Codeposition (with Cu) of mid-transition elements (Fe, Mn, W) could cause the observed instabilities; W is most likely. Based on E_NN and E_d, we classify the impurities into four sets.³ Each set produces qualitatively different surface morphologies in both the step-flow and the submonolayer (θ ≤ 0.7 ML) regimes. In the latter, we find the variations with θ of the number of islands and their mean size, as well as their critical nucleus size from the distribution of capture-zone areas (via fits to the generalized Wigner distribution⁴).
^*Support: NSF MRSEC #DMR 05-20471; computing at NCSA, UIUC
¹N.Néel, T.Maroutian, L.Douillard, H.-J.Ernst, JPCM 15 (’03) S3227
²A. Hamouda et al., PRB 77 (2008) 245430; JPCM 21 (2009) 084215
³RS, Ph.D. thesis, UMD, 2009   ⁴AP & TLE, PRL 99 (2007) 226102