Autor: |
Indiras Khatri, Ehsan H. Sabbar, Sameer Hamadna, Jacques G. Amar |
Rok vydání: |
2022 |
Předmět: |
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Zdroj: |
Surface Science. 715:121938 |
ISSN: |
0039-6028 |
Popis: |
A variety of effects can lead to short-range attachment barriers in thin-film growth. While it has been predicted that the exponent χ which describes the dependence of the island density N on deposition rate F in the submonolayer regime (where N ∼ F χ ) crosses over from the diffusion-limited value i / ( i + 2 ) (where i is the critical island size) in the absence of an attachment barrier to the attachment-limited value 2 i / ( i + 3 ) for a strong attachment barrier, this prediction has not been confirmed. Furthermore, the dependence of the effective value of χ on the barrier strength and ratio R = D / F (where D is the monomer hopping rate) has not been studied. Here we consider the effects of attachment barriers in irreversible growth ( i = 1 ) for both the case of a barrier to island nucleation and attachment as well as that of an island attachment barrier but no nucleation barrier. Our results indicate that in both cases the effective value of χ increases with increasing R to a maximum value χ max ( R max ) which depends on barrier strength before decreasing very slowly toward the diffusion-limited value. In addition, both χ max and R max increase as the barrier strength increases. The results of self-consistent rate-equation calculations are also presented and good agreement is found with our simulations. We also present a scaling analysis for the dependence of R max on the barrier strength for arbitrary critical island-size i and good agreement is found with our simulation results for the case in which there is both a nucleation barrier and a barrier to island attachment. |
Databáze: |
OpenAIRE |
Externí odkaz: |
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