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18. October 2022

Semiconductors for space, satellites, and quantum technologies at “Space Tech Expo Europe”

The Ferdinand-Braun-Institut exhibits space-qualified diode laser modules with narrow linewidth and optical frequency references for satellite and quantum technology applications in Bremen

Pump laser module with Bragg reflector © FBH/schurian.com
Extremely low-noise, reliable pump laser module for space applications with integrated Bragg reflector for space applications and optical data transmission. © FBH/schurian.com

From November 15-17, 2022, the Ferdinand-Braun-Institut (FBH) will present its developments at the Berlin-Brandenburg joint stand in hall 6, R36. The Berlin-based research institute has many years of comprehensive experience in developing III-V semiconductor-based devices and subsystems for space and satellite-based applications along with the relevant technologies. It covers the entire value chain in-house – from chip design and processing to microintegrated modules and systems. FBH cooperates closely with international partners from research and industry, including projects funded by the European Space Agency (ESA) and the German Aerospace Center (DLR).

Laser modules for satellites: from communications to climate protection

FBH has been developing pump lasers for satellite applications for many years. Laser diode benches (LDB) of the institute are successfully used, among others, in Tesat-Spacecom's laser communication terminals (LCT). With them, high data volumes originating from Earth observation can be transmitted exceptionally fast between satellites and to Earth. The wavelength of the LDBs is stabilized exactly to the pump wavelength of the Nd:YAG laser and ensures stable LCT performance. The LDBs are designed and qualified according to ESA standards for space applications. They feature excellent reliability over the entire mission lifetime of 15 years.

FBH has also developed, qualified and supplied pump lasers for the MERLIN climate satellite, which will be measuring the methane concentration in the atmosphere. The modules are each equipped with two high-power laser half-bars delivering 130 W optical power at 808 nm in pulsed mode. The performance and reliability over the entire mission duration has been demonstrated by extensive technology qualifications and confirmed by ESA's Technology Center ESTEC.

For future space missions, FBH has additionally developed a novel DBR laser array module. Thanks to an integrated chip-level Bragg reflector, it offers both low noise and high reliability. The suitability for continuous operation of more than 15 years has also been demonstrated for these modules.

Laser systems for quantum-optical precision experiments & frequency references

Compact diode lasers and robust laser modules from FBH have been successfully used several times in sophisticated experiments under microgravity conditions. Among others, FBH is currently manufacturing 55 narrow-band laser modules developed for the BECCAL (Bose-Einstein Condensate – Cold Atom Laboratory) apparatus. They are to be used for quantum optical experiments with ultra-cold atoms on board the International Space Station ISS.

Core components of the modules are laser diodes developed at the institute, which are assembled together with optics and further passive elements with highest stability and precision. FBH's unique microintegration technology makes the modules extremely robust and ideally suited for use in space. In addition, the modules feature excellent parameters in terms of size, weight and performance: they deliver 500 mW in a single-mode fiber at > 20 % conversion efficiency (electrical to optical) and offer a low intrinsic linewidth < 1 kHz. The laser modules can be flexibly realized in the wavelength range from 630 nm to 1180 nm. Due to the increased demand for modules and subsystems with a variety of integrated functionalities, FBH is currently expanding its activities into an "Aerospace Competence Center". The institute is thus expanding its know-how and capacities in the development and production of subsystems and small series.

In close collaboration with Humboldt-Universität zu Berlin, such modules are also being built into compact quantum sensors and optical frequency references (OFR) for use in space. The Joint Lab demonstrated an autonomous frequency reference based on the D2 transition in rubidium. It achieved a 1 second instability of 1.4 x 10-12 within a volume of only about 400 ml. Such OFRs are promising candidates for global navigation satellite systems such as GPS. In addition, they are used in optical calibration and as absolute references in atom-based quantum technology.
 

Contact

Ferdinand-Braun-Institut gGmbH, Leibniz-Institut für Höchstfrequenztechnik
Gustav-Kirchhoff-Straße 4, 12489 Berlin

Petra Immerz, M.A.
Public Relations Manager
Phone +49 30 6392-2626
Email petra.immerz(at)fbh-berlin.de
www.fbh-berlin.de

 

Press release FBH, 18 October 2022

Research Photonics / Optics Microsystems / Materials

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The development of the Science and Technology Park Berlin Adlershof was and is co-financed by the European Union namely by EFRE. This concerns infrastructure development like construction of technology centres. Furthermore EFRE is used for international projects.

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