English

Gallium nanoparticles grow where light is

Optics 2010-09-03 v1 General Physics

Abstract

The study of metallic nanoparticles has a long tradition in linear and nonlinear optics [1], with current emphasis on the ultrafast dynamics, size, shape and collective effects in their optical response [2-6]. Nanoparticles also represent the ultimate confined geometry:high surface-to-volume ratios lead to local field enhancements and a range of dramatic modifications of the material's properties and phase diagram [7-9]. Confined gallium has become a subject of special interest as the light-induced structural phase transition recently observed in gallium films [10, 11] has allowed for the demonstration of all-optical switching devices that operate at low laser power [12]. Spontaneous self-assembly has been the main approach to the preparation of nanoparticles (for a review see 13). Here we report that light can dramatically influence the nanoparticle self-assembly process: illumination of a substrate exposed to a beam of gallium atoms results in the formation of nanoparticles with a relatively narrow size distribution. Very low light intensities, below the threshold for thermally-induced evaporation, exert considerable control over nanoparticle formation through non-thermal atomic desorption induced by electronic excitation.

Keywords

Cite

@article{arxiv.physics/0105042,
  title  = {Gallium nanoparticles grow where light is},
  author = {K. F. MacDonald and W. S. Brocklesby and V. I. Emelyanov and V. A. Fedotov and S. Pochon and K. J. Ross and G. Stevens and N. I. Zheludev},
  journal= {arXiv preprint arXiv:physics/0105042},
  year   = {2010}
}

Comments

11 pages, 4 figures