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Metal microneedle fabrication using twisted light with spin

Author(s): Takashige Omatsu , Keisuke Chujo , Katsuhiko Miyamoto , Masahito Okida , Kazuki Nakamura , Nobuyuki Aoki , Ryuji Morita

Publication date Created: 2010

Publication date (Electronic): August 05 2010

Journal: Optics Express

Publisher: The Optical Society

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Abstract

Microneedle fabrication on a metal surface based on laser ablation using twisted light with spin was demonstrated, for the first time. The resulting needle showed a height of at least 10 microm above the target surface and a tip diameter of less than 0.3 microm. We also demonstrated the fabrication of a two-dimensional 5 x 6 microneedle array. The needles were uniformly well shaped with an average length and tip diameter of about 10 and 0.5 microm, respectively.

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Most cited references 18

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Light’s Orbital Angular Momentum

Miles Padgett, Les Allen, Johannes Courtial (2004)

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Spin-to-orbital angular momentum conversion in a strongly focused optical beam.

Yiqiong Zhao, J Edgar, Gavin Jeffries … (2007)

As a fundamental property of light, the angular momentum of photons has been of great interest. Here, we demonstrate that optical spin-to-orbital angular momentum conversion can occur in a homogeneous and isotropic medium. This Letter presents both theoretical and experimental studies of this conversion in a tightly focused beam and shows that the orbital rotation speeds of trapped particles are altered because of this conversion as predicted by theory.

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A nanotube-based field-emission flat panel display

J. Dai, E. W. Seelig, R. P. H. Chang … (1998)

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Author and article information

Journal

Journal ID (publisher-id): OPEXFF

Title: Optics Express

Abbreviated Title: Opt. Express

Publisher: The Optical Society

ISSN (Electronic): 1094-4087

Publication date Created: 2010

Publication date Created: 2010

Publication date (Electronic): August 05 2010

Publication date (Print): August 16 2010

Volume: 18

Issue: 17

Page: 17967

Article

DOI: 10.1364/OE.18.017967

PubMed ID: 20721183

SO-VID: 217508ac-3bef-4bed-ab4a-39c9bfe8a1b6

Copyright statement: © 2010

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Self URI (article page): https://www.osapublishing.org/oe/abstract.cfm?uri=oe-18-17-17967

ScienceOpen disciplines: Molecular medicine,Neurosciences

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ScienceOpen disciplines: Molecular medicine, Neurosciences

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