0000000000376371

AUTHOR

Jean Pierre Marburger

showing 3 related works from this author

Highly stable Zerodur based optical benches for microgravity applications and other adverse environments

2019

A number of cold atom experiments are restrained by the impeding effects of gravity. While efforts have been made to overcome these limitations in a gravitational environment, another approach is placing the experiment in a microgravity environment, as can be found aboard sounding rockets, satellites or a space station. The cornerstone of such experiments is a robust laser system. The adverse conditions during a rocket launch impose stringent requirements on thermal stability and resilience against mechanical stress on this part of the experimental setup. Furthermore, the very limited space found on any of the aforementioned microgravity platforms necessitates maximal miniaturization. In or…

Quantum opticsSounding rocketComputer sciencebusiness.industryZerodurcomputer.software_genreRocket launchInternational Space StationMiniaturizationComputer Aided DesignCold Atom LaboratoryAerospace engineeringbusinesscomputerInternational Conference on Space Optics — ICSO 2018
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Determining the deformation and resulting coupling efficiency degradation of ultrastable fiber-coupled optical benches under load.

2020

Fiber-coupled optical benches are an integral part of many laser systems. The base of such an optical bench is usually a slab of solid material, onto which optical components are fixed. In many environments, the ability to retain high fiber coupling efficiency under mechanical loads is essential. In this article, we study the fiber-to-fiber coupling efficiency under the application of static mechanical loads experimentally and theoretically: We constructed a simple three-point bending setup to interferometrically measure the deformation of an optical bench under load. Using the same setup, we further recorded the resulting coupling efficiency variations. The examined optical benches are bas…

010302 applied physicsCouplingMaterials scienceAcousticsPhysics::OpticsZerodurBendingDeformation (meteorology)Laser01 natural sciencesFinite element method010305 fluids & plasmaslaw.inventionlaw0103 physical sciencesSlabInstrumentationBeam (structure)The Review of scientific instruments
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ZERODUR based optical systems for quantum gas experiments in space

2019

Abstract Numerous quantum technologies make use of a microgravity environment e.g. in space. Operating in this extreme environment makes high demands on the experiment and especially the laser system regarding miniaturization and power consumption as well as mechanical and thermal stability. In our systems, optical modules consisting of ZERODUR® based optical benches with free-space optics are combined with fiber components. Suitability of the technology has been demonstrated in the successful sounding rocket missions FOKUS, KALEXUS and MAIUS-1. Here, we report on our toolkit for stable optical benches including mounts, fixed and adjustable mirrors as well as polarization maintaining fiber …

Atom interferometerComputer scienceAtomic Physics (physics.atom-ph)Aerospace EngineeringPhysics::OpticsFOS: Physical sciencesPolarization-maintaining optical fiberZerodur02 engineering and technology01 natural sciencesPhysics - Atomic Physicslaw.invention0203 mechanical engineeringlaw0103 physical sciencesInternational Space StationMiniaturizationAerospace engineering010303 astronomy & astrophysics020301 aerospace & aeronauticsSounding rocketbusiness.industryLaserQuantum technologybusinessPhysics - OpticsOptics (physics.optics)
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