Quantum-Limited Measurements of Optical Signals from a Satellite in Geostationary Earth Orbit

Kevin Günthner; Kevin Günthner; Imran Khan; Imran Khan; Dominique Elser; Dominique Elser; Birgit Stiller; Birgit Stiller; Ömer Bayraktar; Ömer Bayraktar; Christian R. Müller; Christian R. Müller; Karen Saucke; Daniel Tröndle; Frank Heine; Stefan Seel; Peter Greulich; Herwig Zech; Björn Gütlich; Sabine Philipp-May; Christoph Marquardt; Christoph Marquardt; Gerd Leuchs; Gerd Leuchs

2017 European Conference on Lasers and Electro-Optics and European Quantum Electronics Conference
(Optica Publishing Group, 2017),
paper EB_4_2

Quantum-Limited Measurements of Optical Signals from a Satellite in Geostationary Earth Orbit

Kevin Günthner, Imran Khan, Dominique Elser, Birgit Stiller, Ömer Bayraktar, Christian R. Müller, Karen Saucke, Daniel Tröndle, Frank Heine, Stefan Seel, Peter Greulich, Herwig Zech, Björn Gütlich, Sabine Philipp-May, Christoph Marquardt, and Gerd Leuchs

European Quantum Electronics Conference 2017

Munich Germany
25–29 June 2017
ISBN: 978-1-5090-6736-7

From the session
Quantum Communication (EB_4)

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K. Günthner, I. Khan, D. Elser, B. Stiller, Ö. Bayraktar, C. R. Müller, K. Saucke, D. Tröndle, F. Heine, S. Seel, P. Greulich, H. Zech, B. Gütlich, S. Philipp-May, C. Marquardt, and G. Leuchs, "Quantum-Limited Measurements of Optical Signals from a Satellite in Geostationary Earth Orbit," in 2017 European Conference on Lasers and Electro-Optics and European Quantum Electronics Conference, (Optica Publishing Group, 2017), paper EB_4_2.

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Abstract

Quantum key distribution (QKD) has raised increased attention over the past years as one of the most attractive quantum technologies for practical implementation. QKD has already been implemented in intra-city networks all around the world. But up to now, bridging global distances with quantum communication remains an outstanding challenge. A promising candidate to provide this link is via optical satellite communication. As space-to-ground communication is already well developed for classical applications, one can make use of the already existing technology for QKD, i.e. modern Laser Communication Terminals (LCTs) may be adapted for quantum communication. An important first step to achieve this goal is a precise characterization of the system and the channel with regard to their quantum noise behaviour.

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