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Grant support

This work has been supported by the European Space Agency through the TRP program "Tuneable Photonic RF Demultiplexer for Broadband Satellites -THORMUX", by H2020 within the program "SpaceBeam" (Contract 870421), by the European Union through projects TERA6G project (GA 101096949) and SPRINTER project (GA 101070581), and by a Spanish national project named "6G-Xtreme" (Ref. TSI-063000-2021-136).

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Guzman, RobinsonAuthor

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December 10, 2024
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Photonic Integrated Local Oscillator Signal Generation for Satellite Communications

Publicated to:International Conference On Transparent Optical Networks. - 2024-01-01 (), DOI: 10.1109/ICTON62926.2024.10647271

Authors: Zarzuelo, Alberto; Cesar, Jessica; Guzman, Robinson; Gonzalez, Luis; Delgado Mendinueta, Jose Manuel; Mitsolidou, Charoula; Timens, Roelof B; van Dijk, Paul; Roeloffzen, Chris; Martin, Fernando; Carpintero, Guillermo

Affiliations

Carlos III Univ Madrid, Optoelect & Laser Technol Grp GOTL, Ave Univ 30, Leganes 28911, Spain - Author
Rey Juan Carlos Univ, Signal Theory & Commun Dept, Camino Molino 5, Fuenlabrada 28942, Spain - Author
SENER Aerospatiale SAU, Calle Severo Ochoa 4, Tres Cantos 28760, Spain - Author
Univ Twente, LioniX Int BV, Hengelosestr 500, NL-7521 AN Enschede, Netherlands - Author

Abstract

Recently, satellite telecommunications have experienced the necessity to dramatically increase their transmission capacity to tackle with the demand for higher mobile network data rates. An increase of the capacity is often associated with an increase in size, mass, and power consumption, commonly known as SWaP. Low SWaP requirements are especially critical for novel Very High Throughput Satellites (VHTS), where new technologies are required to increase the capacity and flexibility of the communication payloads. Microwave Photonics (MWP) has arisen as a promising technique to overcome this challenge, and specifically the Integrated Microwave Photonics (iMWP) technology. iMWP enables handling of wider bandwidths as well as increasing the system agility while maintaining a low SWaP by making use of a photonic integrated approach. Photonic integration enables a significant improvement in terms of SWaP because of a reduced footprint while maintaining the quality of the RF signals generated. MWP enable radiofrequency (RF) local oscillator (LO) signal generation, using tunable lasers, that range from a few MHz up to the THz range, which is far beyond the specs of conventional RF-based LO generators. However, the main disadvantage of this approach is when the integrated lasers operate under the free-running condition, resulting in a large phase noise of the beat note and a long-term drift of the generated signal. In this paper we analyze the suitability of the most important photonic integration platforms, including monolithic InP, hybrid InP/Polymer and hybrid InP/Si3N4, to be used for LO signal generation. We will present some of the most relevant results focusing on the RF carrier generation and stability of the generated signals as well as ways to mitigate the drift and improve the performance.

Keywords

Microwave carrier generationMicrowave photonics (mwp)Photonic integrationVery-high throughput satellites (vhtsVery-high throughput satellites (vhts)

Quality index

Bibliometric impact. Analysis of the contribution and dissemination channel

The work has been published in the journal International Conference On Transparent Optical Networks, Q4 Agency Scopus (SJR), its regional focus and specialization in , give it significant recognition in a specific niche of scientific knowledge at an international level.

Impact and social visibility

From the perspective of influence or social adoption, and based on metrics associated with mentions and interactions provided by agencies specializing in calculating the so-called "Alternative or Social Metrics," we can highlight as of 2025-07-16:

  • The use of this contribution in bookmarks, code forks, additions to favorite lists for recurrent reading, as well as general views, indicates that someone is using the publication as a basis for their current work. This may be a notable indicator of future more formal and academic citations. This claim is supported by the result of the "Capture" indicator, which yields a total of: 1 (PlumX).

Leadership analysis of institutional authors

This work has been carried out with international collaboration, specifically with researchers from: Netherlands.