Spatiotemporal Analysis of an Efficient Fresnel Grating Coupler for Focusing Surface Plasmon Polaritons

Time-resolved photoemission microscopy is used to investigate the spatiotemporal properties of surface plasmon polaritons launched at a Fresnel-type grating coupler. By milling a multiline structure of segmented grooves with dimensions derived from Fresnel zones into a plasmonic material, efficient...

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Published in	ACS photonics Vol. 6; no. 3; pp. 600 - 604
Main Authors	Podbiel, Daniel, Kahl, Philip, Frank, Bettina, Davis, Timothy J, Giessen, Harald, Hoegen, Michael Horn-von, Meyer zu Heringdorf, Frank J
Format	Journal Article
Language	English
Published	American Chemical Society 20.03.2019
Subjects	two photon photoemission surface plasmon imaging Time-resolved photoemission microscopy plasmoemission
Online Access	Get full text
ISSN	2330-4022 2330-4022
DOI	10.1021/acsphotonics.8b01565

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Abstract	Time-resolved photoemission microscopy is used to investigate the spatiotemporal properties of surface plasmon polaritons launched at a Fresnel-type grating coupler. By milling a multiline structure of segmented grooves with dimensions derived from Fresnel zones into a plasmonic material, efficient focusing of surface plasmon polaritons can be accomplished. We demonstrate the presence of pulse broadening at the focus associated with propagation delays in the device. Moreover, our experimental data implies an enhancement of the plasmonic field energy density at the focus in excess of a factor of 10, with a focal spot size at the Abbe limit for our lens.
AbstractList	Time-resolved photoemission microscopy is used to investigate the spatiotemporal properties of surface plasmon polaritons launched at a Fresnel-type grating coupler. By milling a multiline structure of segmented grooves with dimensions derived from Fresnel zones into a plasmonic material, efficient focusing of surface plasmon polaritons can be accomplished. We demonstrate the presence of pulse broadening at the focus associated with propagation delays in the device. Moreover, our experimental data implies an enhancement of the plasmonic field energy density at the focus in excess of a factor of 10, with a focal spot size at the Abbe limit for our lens.
Author	Kahl, Philip Giessen, Harald Meyer zu Heringdorf, Frank J Podbiel, Daniel Frank, Bettina Davis, Timothy J Hoegen, Michael Horn-von
AuthorAffiliation	Fourth Physics Institute and Research Center SCoPE Faculty of Physics and CENIDE School of Physics
AuthorAffiliation_xml	– name: School of Physics – name: Fourth Physics Institute and Research Center SCoPE – name: Faculty of Physics and CENIDE
Author_xml	– sequence: 1 givenname: Daniel orcidid: 0000-0002-6592-4146 surname: Podbiel fullname: Podbiel, Daniel email: daniel.podbiel@uni-due.de organization: Faculty of Physics and CENIDE – sequence: 2 givenname: Philip surname: Kahl fullname: Kahl, Philip organization: Faculty of Physics and CENIDE – sequence: 3 givenname: Bettina surname: Frank fullname: Frank, Bettina organization: Fourth Physics Institute and Research Center SCoPE – sequence: 4 givenname: Timothy J orcidid: 0000-0002-7299-4900 surname: Davis fullname: Davis, Timothy J organization: School of Physics – sequence: 5 givenname: Harald surname: Giessen fullname: Giessen, Harald organization: Fourth Physics Institute and Research Center SCoPE – sequence: 6 givenname: Michael Horn-von surname: Hoegen fullname: Hoegen, Michael Horn-von organization: Faculty of Physics and CENIDE – sequence: 7 givenname: Frank J orcidid: 0000-0002-5878-2012 surname: Meyer zu Heringdorf fullname: Meyer zu Heringdorf, Frank J email: meyerzh@uni-due.de organization: Faculty of Physics and CENIDE
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