The photon spin is an important resource for quantum information processing as is the electron spin in spintronics. However, for subwavelength confined optical excitations, polarization as a global property of a mode cannot be defined. Here, we show that any polarization state of a plane-wave photon can reversibly be mapped to a pseudospin embodied by the two fundamental modes of a subwavelength plasmonic two-wire transmission line. We design a device in which this pseudospin evolves in a well-defined fashion throughout the device reminiscent of the evolution of photon polarization in a birefringent medium and the behavior of electron spins in the channel of a spin field-effect transistor. The significance of this pseudospin is enriched by the fact that it is subject to spin–orbit locking. Combined with optically active materials to exert external control over the pseudospin precession, our findings could enable spin-optical transistors, that is, the routing and processing of quantum information with light on a subwavelength scale.
Reversible Mapping and Sorting the Spin of Photons on the Nanoscale
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ACS Full Text Snapshot:C\:\\Users\\scherzad\\Zotero\\storage\\GIWYKKPH\\acs.nanolett.html:text/html;Krauss et al. - 2019 - Reversible Mapping and Sorting the Spin of Photons.pdf:C\:\\Users\\scherzad\\Zotero\\storage\\NYRANAJZ\\Krauss et al. - 2019 - Reversible Mapping and Sorting the Spin of Photons.pdf:application/pdf
%0 Journal Article
%1 krauss2019reversible
%A Krauss, Enno
%A Razinskas, Gary
%A Köck, Dominik
%A Grossmann, Swen
%A Hecht, Bert
%D 2019
%J Nano Lett.
%K experiment nano-optics photon-spin plasmon waveguides
%N 5
%P 3364-3369
%R 10.1021/acs.nanolett.9b01162
%T Reversible Mapping and Sorting the Spin of Photons on the Nanoscale: A Spin-Optical Nanodevice
%V 19
%X The photon spin is an important resource for quantum information processing as is the electron spin in spintronics. However, for subwavelength confined optical excitations, polarization as a global property of a mode cannot be defined. Here, we show that any polarization state of a plane-wave photon can reversibly be mapped to a pseudospin embodied by the two fundamental modes of a subwavelength plasmonic two-wire transmission line. We design a device in which this pseudospin evolves in a well-defined fashion throughout the device reminiscent of the evolution of photon polarization in a birefringent medium and the behavior of electron spins in the channel of a spin field-effect transistor. The significance of this pseudospin is enriched by the fact that it is subject to spin–orbit locking. Combined with optically active materials to exert external control over the pseudospin precession, our findings could enable spin-optical transistors, that is, the routing and processing of quantum information with light on a subwavelength scale.
@article{krauss2019reversible,
abstract = {The photon spin is an important resource for quantum information processing as is the electron spin in spintronics. However, for subwavelength confined optical excitations, polarization as a global property of a mode cannot be defined. Here, we show that any polarization state of a plane-wave photon can reversibly be mapped to a pseudospin embodied by the two fundamental modes of a subwavelength plasmonic two-wire transmission line. We design a device in which this pseudospin evolves in a well-defined fashion throughout the device reminiscent of the evolution of photon polarization in a birefringent medium and the behavior of electron spins in the channel of a spin field-effect transistor. The significance of this pseudospin is enriched by the fact that it is subject to spin–orbit locking. Combined with optically active materials to exert external control over the pseudospin precession, our findings could enable spin-optical transistors, that is, the routing and processing of quantum information with light on a subwavelength scale.},
added-at = {2020-02-24T12:38:33.000+0100},
author = {Krauss, Enno and Razinskas, Gary and Köck, Dominik and Grossmann, Swen and Hecht, Bert},
biburl = {https://www.bibsonomy.org/bibtex/29e60a8f2acccc10c2bb30d3e31abd617/ep5optics},
day = 08,
doi = {10.1021/acs.nanolett.9b01162},
file = {ACS Full Text Snapshot:C\:\\Users\\scherzad\\Zotero\\storage\\GIWYKKPH\\acs.nanolett.html:text/html;Krauss et al. - 2019 - Reversible Mapping and Sorting the Spin of Photons.pdf:C\:\\Users\\scherzad\\Zotero\\storage\\NYRANAJZ\\Krauss et al. - 2019 - Reversible Mapping and Sorting the Spin of Photons.pdf:application/pdf},
interhash = {87277f020fdc1f1ab675ce1c6044c28d},
intrahash = {9e60a8f2acccc10c2bb30d3e31abd617},
issn = {1530-6984},
journal = {Nano Lett.},
keywords = {experiment nano-optics photon-spin plasmon waveguides},
month = {05},
note = {<a href="https://arxiv.org/abs/1812.03721"style="font-style: normal;">» arxiv:1812.03721 (2018)</a>},
number = 5,
pages = {3364-3369},
shorttitle = {Reversible {Mapping} and {Sorting} the {Spin} of {Photons} on the {Nanoscale}},
timestamp = {2020-03-10T12:46:02.000+0100},
title = {Reversible Mapping and Sorting the Spin of Photons on the Nanoscale: A Spin-Optical Nanodevice},
urldate = {2020-02-24},
volume = 19,
year = 2019
}