Laser manipulation of atoms and nanofabrication
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Publication year
2001Author(s)
Publisher
[S.l. : s.n.]
ISBN
9090147772
Number of pages
X, 108 p.
Publication type
Dissertation
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Abstract
Fundamental interaction processes between atoms and photons are exploited to control external degrees of freedom of the atoms. Laser light, when properly tuned near an atomic resonance, exerts such forces that the atoms are repelled from or attracted to the regions with low light intensities. We use these forces to manipulate atom beams on nanometer-scale. In the simplest approach to nanofabrication via atom optics, a laser standing wave serves as a 'mask' through which the atoms are deposited onto a substrate. In this thesis we first present the modeling results on the focusing properties of a standing wave laser field and on the surface diffusion and growth phenomena in laser-focused atomic deposition. The development of our experimental facility for laser-manipulated deposition with chromium atoms (based on the obtained modeling results) is reported on. Thereafter, we demonstrate laser manipulation of chromium atoms and fabrication of nanostructures with these atoms. The results obtained in Nijmegen and also those obtained in collaboration with J.J. McClelland's group from the National Institute of Standards and Technology (Gaithersburg, Maryland, USA) are analyzed with the aim of understanding the role of atom-optical and surface growth phenomena in the fabrication process of laser-focused nanostructures
This item appears in the following Collection(s)
- Academic publications [246165]
- Dissertations [13814]
- Electronic publications [133738]
- Open Access publications [107266]
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