Appl. Phys. B
 2010
DOI: 10.1007/s00340-010-4229-x
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Nanofabrication by magnetic focusing of supersonic beams

Robert Clark
1
,
Thomas R. Mazur
2
,
A. Libson
3
et al.

Abstract: We present a new method for nanoscale atom lithography. We propose the use of a supersonic atomic beam, which provides an extremely high-brightness and cold source of fast atoms. The atoms are to be focused onto a substrate using a thin magnetic film, into which apertures with widths on the order of 100 nm have been etched. Focused spot sizes near or below 10 nm, with focal lengths on the order of 10 µm, are predicted. This scheme is applicable both to precision patterning of surfaces with metastable atomic be… Show more

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Cited by 2 publications
(1 citation statement)
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“…The method has been limited so far by the low magnetic field gradients available, which result in a large focal length, as well as by the fringe fields that the atoms experience as they enter and leave the magnets. Clark et al 14 recently proposed a parallel method to achieve focal spots with dimensions of sub-10 nm; however, that method does not enable true imaging and hence has limited applicability.…”
mentioning
confidence: 99%

Nanoscale Imaging of Neutral Atoms with a Pulsed Magnetic Lens

Castillo-Garza
1
,
Gardner
2
,
Zisman
3
et al. 2013
ACS Nano
7
0
7
0
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“…The method has been limited so far by the low magnetic field gradients available, which result in a large focal length, as well as by the fringe fields that the atoms experience as they enter and leave the magnets. Clark et al 14 recently proposed a parallel method to achieve focal spots with dimensions of sub-10 nm; however, that method does not enable true imaging and hence has limited applicability.…”
mentioning
confidence: 99%

Nanoscale Imaging of Neutral Atoms with a Pulsed Magnetic Lens

Castillo-Garza
1
,
Gardner
2
,
Zisman
3
et al. 2013
ACS Nano
7
0
7
0
View full textAdd to dashboardCite
show abstract

Investigation of shadow effect in laser-focused atomic deposition

Xiao1,
Ma2,
Zhang3
et al. 2012
Applied Surface Science
13
0
6
0
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