Producing Virtually Defect Free Nanoscale Ripples by Ion Bombardment of Rocked Solid Surfaces

TL;DR

This paper demonstrates through simulations that rocking a solid surface during ion bombardment can produce nearly defect-free nanoscale ripples, advancing nano-fabrication techniques.

Contribution

It introduces a novel method of rocking during ion bombardment to significantly reduce defects in nanoscale ripple patterns.

Findings

Rocking produces highly ordered, defect-free ripples.

Simulations identify optimal conditions for ripple formation.

Method can be experimentally reproduced.

Abstract

Bombardment of a solid surface with a broad, obliquely-incident ion beam frequently produces nanoscale surface ripples. The primary obstacle that prevents the adoption of ion bombardment as a nano-fabrication tool is the high density of defects in the patterns that are typically formed. Our simulations indicate that ion bombardment can produce nearly defect free ripples on the surface of an elemental solid if the sample is concurrently and periodically rocked about an axis orthogonal to the surface normal and the incident beam direction. We also investigate the conditions necessary for rocking to produce highly ordered ripples and discuss how the results of our simulations can be reproduced experimentally.