Plasmonic Modulators for Future Highest-Speed Free Space Optical Communications
Laurenz Kulmer
(1)
,
Yannik Horst
(1)
,
Bertold Bitachon
(1)
,
Marcel Destraz
(2)
,
Tobias Blatter
(1)
,
Matthieu Rimlinger
(1)
,
Killian Keller
(1)
,
Valentino Tedaldi
(2)
,
Patrick Habegger
(2)
,
Eva de Leo
(3)
,
Wolfgang Heni
(3)
,
Claudia Hoessbacher
(3)
,
Aurélie Montmerle-Bonnefois
(4)
,
Caroline Lim
(4)
,
Jean-Marc Conan
(4)
,
Joseph Montri
(4)
,
Beatrice Sorrente
(4)
,
Philippe Perrault
(4)
,
Cyril Petit
(4)
,
Nicolas Védrenne
(4)
,
Loann Pommarel
(5)
,
Hannah Lindberg
(5)
,
Laurent Francou
(5)
,
Daniel Matter
(5)
,
Arnaud Le Kernec
(5)
,
Anaëlle Maho
(5)
,
Simon Lévêque
(5)
,
Michael Sotom
(5)
,
Benedikt Baeuerle
(3)
,
Juerg Leuthold
(1)
Caroline Lim
- Fonction : Auteur
- PersonId : 183063
- IdHAL : caroline-b-lim
- ORCID : 0000-0002-1164-8676
- IdRef : 253124700
Résumé
Plasmonic modulators have been assessed for operation up to 200 GBaud in a turbulent 53 km free-space-optical link. They are shown to withstand space radiation and large temperature ranges making them ideal for space applications.