Plasmonic laser printing for functional metasurfaces

Xiaolong Zhu; M. S. Carstensen; Christoph Vannahme; Emil Højlund-Nielsen; N. Asger Mortensen; Anders Kristensen

doi:10.1109/PIERS.2016.7734447

Plasmonic laser printing for functional metasurfaces

Xiaolong Zhu, M. S. Carstensen, Christoph Vannahme, Emil Højlund-Nielsen, N. Asger Mortensen, Anders Kristensen

Research output: Chapter in Book/Report/Conference proceeding › Conference abstract in proceedings › Research › peer-review

Abstract

Recently, we show a method of color printing on nanoimprinted plasmonic metasurfaces using laser post-writing. Laser pulses induce transient local heat generation that leads to melting and reshaping of the imprinted nanostructures [1]. Depending on the laser pulse energy density, different surface morphologies that support different plasmonic resonances can be created. This technology creates a laser printer capable of producing color images with a resolution up to 127,000 DPI. With tailored trains of laser pulses, multiple optical states are flatiron onto the metasurface film with a nanoscale controlling. Thus, this diffraction-limited-resolution optical writing process can be further used to demonstrate a variety of applications in addition to large-area structural color printing. Multi-focus Fresnel zone plates with subwavelength focus, and more meta-surfaces different functions, such as spectroscope filters, Raman substrates and biosensors are also applicable.

Original language	English
Title of host publication	2016 Progress In Electromagnetic Research Symposium (PIERS)
Number of pages	1
Publisher	IEEE
Publication date	2016
Pages	752-752
ISBN (Print)	978-1-5090-6094-8
ISBN (Electronic)	978-1-5090-6093-1
DOIs	https://doi.org/10.1109/PIERS.2016.7734447
Publication status	Published - 2016
Event	Progress In Electromagnetics Research Symposium 2016 - Shanghai International Convention Center, Shanghai, China Duration: 8 Aug 2016 → 11 Aug 2016

Conference

Conference	Progress In Electromagnetics Research Symposium 2016
Location	Shanghai International Convention Center
Country/Territory	China
City	Shanghai
Period	08/08/2016 → 11/08/2016

Keywords

Plasmons
Printing
Image color analysis
Surface morphology
Surface emitting lasers
Biomedical optical imaging

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10.1109/PIERS.2016.7734447

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title = "Plasmonic laser printing for functional metasurfaces",

abstract = "Recently, we show a method of color printing on nanoimprinted plasmonic metasurfaces using laser post-writing. Laser pulses induce transient local heat generation that leads to melting and reshaping of the imprinted nanostructures [1]. Depending on the laser pulse energy density, different surface morphologies that support different plasmonic resonances can be created. This technology creates a laser printer capable of producing color images with a resolution up to 127,000 DPI. With tailored trains of laser pulses, multiple optical states are flatiron onto the metasurface film with a nanoscale controlling. Thus, this diffraction-limited-resolution optical writing process can be further used to demonstrate a variety of applications in addition to large-area structural color printing. Multi-focus Fresnel zone plates with subwavelength focus, and more meta-surfaces different functions, such as spectroscope filters, Raman substrates and biosensors are also applicable.",

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AU - Carstensen, M. S.

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AU - Mortensen, N. Asger

AU - Kristensen, Anders

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AB - Recently, we show a method of color printing on nanoimprinted plasmonic metasurfaces using laser post-writing. Laser pulses induce transient local heat generation that leads to melting and reshaping of the imprinted nanostructures [1]. Depending on the laser pulse energy density, different surface morphologies that support different plasmonic resonances can be created. This technology creates a laser printer capable of producing color images with a resolution up to 127,000 DPI. With tailored trains of laser pulses, multiple optical states are flatiron onto the metasurface film with a nanoscale controlling. Thus, this diffraction-limited-resolution optical writing process can be further used to demonstrate a variety of applications in addition to large-area structural color printing. Multi-focus Fresnel zone plates with subwavelength focus, and more meta-surfaces different functions, such as spectroscope filters, Raman substrates and biosensors are also applicable.

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KW - Printing

KW - Image color analysis

KW - Surface morphology

KW - Surface emitting lasers

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Plasmonic laser printing for functional metasurfaces

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Keywords

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