Atom lithography with two-dimensional optical masks

Atom lithography with two-dimensional optical masks

With a two-dimensional (2D) optical mask at {/content/R7E88LKTDRAA5HLM/xxlarge955.gif}=1083 nm, nanoscale patterns are created for the first time in an atom lithography process using metastable helium atoms. The internal energy of the atoms is used to locally damage a hydrophobic resist layer, which...

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Veröffentlicht in:Applied physics. B, Lasers and optics Lasers and optics, 2004-08, Vol.79 (3), p.279-283
Hauptverfasser: PETRA, S. J. H, VAN LEEUWEN, K. A. H, FEENSTRA, L, HOGERVORST, W, VASSEN, W
Format: Artikel
Sprache:eng
Schlagworte:
Arrays
Atomic and molecular physics
Atomic properties and interactions with photons
beam
Coherent control of atomic interactions with photons
Cross-disciplinary physics: materials science
rheology
deposition
Exact sciences and technology
forces
Lithography
Masks
Materials science
Mechanical effects of light on atoms, molecules and ions
metastable helium-atoms
Methods of nanofabrication
Nanocomposites
nanofabrication
Nanolithography
Nanomaterials
Nanostructure
Optical cooling of atoms
trapping
Photon interactions with atoms
Physics
Polarized light
Two dimensional
wave light-field
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Zusammenfassung:With a two-dimensional (2D) optical mask at {/content/R7E88LKTDRAA5HLM/xxlarge955.gif}=1083 nm, nanoscale patterns are created for the first time in an atom lithography process using metastable helium atoms. The internal energy of the atoms is used to locally damage a hydrophobic resist layer, which is removed in a wet etching process. Experiments have been performed with several polarizations for the optical mask, resulting in different intensity patterns, and corresponding nanoscale structures. The results for a linear polarized light field show an array of holes with a diameter of 260 nm, in agreement with a computed pattern. With a circularly polarized light field a line pattern is observed with a spacing of {/content/R7E88LKTDRAA5HLM/xxlarge955.gif}/2=766 nm. Simulations taking into account many possible experimental imperfections can not explain this pattern.
ISSN:0946-2171
1432-0649
1432-0649
DOI:10.1007/s00340-004-1569-4