AIP Advances (Jun 2013)

Evolution of nanoripples on silicon by gas cluster-ion irradiation

  • Omar Lozano,
  • Q. Y. Chen,
  • B. P. Tilakaratne,
  • H. W. Seo,
  • X. M. Wang,
  • P. V. Wadekar,
  • P. V. Chinta,
  • L. W. Tu,
  • N. J. Ho,
  • D. Wijesundera,
  • W. K. Chu

DOI
https://doi.org/10.1063/1.4811171
Journal volume & issue
Vol. 3, no. 6
pp. 062107 – 062107

Abstract

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Si wafers of (100), (110) and (111) orientations were bombarded by gas cluster ion beam (GCIB) of 3000 Ar-atoms/cluster on average at a series of angles. Similar surface morphology ripples developed in different nanoscales. A simple scaling functional satisfactorily describe the roughness and wavelength of the ripple patterns as a function of dosage and angle of incidence. The ripples are formed orthogonal to the incident cluster-ions at large off-normal angles. An ellipsoidal pattern was created by two consecutive irradiations incident in mutually orthogonal directions with unequal exposure times between each irradiation, from 7:1 to 10:1, beyond which the original ripple imprints would be over-written. This work was inspired by use of the ripples to seed growth of controlled nanostructures without patterning by lithography or predeposition of catalysts.