B. Ziberi scite author profile

We present ion beam erosion experiments performed in ultrahigh vacuum using a differentially pumped ion source and taking care that the ion beam hits the Si(001) sample only. Under these conditions no ion beam patterns form on Si for angles theta < or = 45 degrees with respect to the global surface normal using 2 keV Kr+ and fluences of approximately 2 x 10(22) ions m(-2). In fact, the ion beam induces a smoothening of preformed patterns. Simultaneous sputter deposition of stainless steel in this angular range creates a variety of patterns, similar to those previously ascribed to clean ion-beam-induced destabilization of the surface profile. Only for grazing incidence with 60 degrees < or = theta < or = 83 degrees do pronounced ion beam patterns form. It appears that the angular-dependent stability of Si(001) against pattern formation under clean ion beam erosion conditions is related to the angular dependence of the sputtering yield, and not primarily to a curvature-dependent yield as invoked frequently in continuum theory models.

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Surface engineering with ion beams: from self-organized nanostructures to ultra-smooth surfaces

Frost

et al. 2008

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Highly ordered nanopatterns on Ge and Si surfaces by ion beam sputtering

Ziberi¹,

Cornejo²,

Frost³

et al. 2009

J. Phys.: Condens. Matter

122

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The bombardment of surfaces with low-energy ion beams leads to material erosion and can be accompanied by changes in the topography. Under certain conditions this surface erosion can result in well-ordered nanostructures. Here an overview of the pattern formation on Si and Ge surfaces under low-energy ion beam erosion at room temperature will be given. In particular, the formation of ripple and dot patterns, and the influence of different process parameters on their formation, ordering, shape and type will be discussed. Furthermore, the internal ion beam parameters inherent to broad beam ion sources are considered as an additional degree of freedom for controlling the pattern formation process. In this context: (i) formation of ripples at near-normal ion incidence, (ii) formation of dots at oblique ion incidence without sample rotation, (iii) transition between patterns, (iv) formation of ripples with different orientations and (v) long range ordered dot patterns will be presented and discussed.

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Pattern formation on Ge by low energy ion beam erosion

et al. 2013

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B. Ziberi

Ripple pattern formation on silicon surfaces by low-energy ion-beam erosion: Experiment and theory

Is keV ion-induced pattern formation on Si(001) caused by metal impurities?

Surface engineering with ion beams: from self-organized nanostructures to ultra-smooth surfaces

Highly ordered nanopatterns on Ge and Si surfaces by ion beam sputtering

Pattern formation on Ge by low energy ion beam erosion

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