Patrick Baer scite author profile

Due to the large core diameter and high number of guided modes in fibers with large core diameters, increasing the reflectivity of Fiber-Bragg-Gratings (FBG) in these multimode (MM) fibers is technically challenging. To increase the homogeneity and reflectivity of FBG in MM fibers, we analyze the impact of laser inscription parameters onto the FBG dimensions. Limitations of the processable core volume due to the cylindrical fiber geometry are observed. A new inscription strategy is developed, utilizing the rotational symmetry of the fiber to make a larger core volume accessible. In combination with a chirp of the FBG’s grating period a maximum reflectivity of 61% is archived in a 105 µm core diameter fiber.

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E-TEST: a compact low-frequency isolator for a large cryogenic mirror

Sider

Fronzo

Amez-Droz

et al. 2023

Class. Quantum Grav.

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To achieve the expected level of sensitivity of third-generationgravitational-wave observatories, more accurate and sensitive instruments than those of the second generation must be used to reduce all sources of noise.Amongst them, one of the most relevant is seismic noise, which will require thedevelopment of a better isolation system, especially at low frequencies (below 10Hz), the operation of large cryogenic silicon mirrors, and the improvement ofoptical wavelength readouts. In this framework, this article presents the activitiesof the E-TEST (Einstein Telescope Euregio Meuse-Rhine Site & Technology) todevelop and test new key technologies for the next generation of GW observatories.A compact isolator system for a large silicon mirror at a low frequency is proposed. The design of the isolator allows the overall heightof the isolation system to be significantly compact and also suppresses seismicnoise at low frequencies. To minimize the effect of thermal noise, the isolationsystem is provided with a 100-kg silicon mirror which is suspended in a vacuumchamber at cryogenic temperature (25-40 K). To achieve this temperature withoutinducing vibrations to the mirror, a radiation-based cooling strategy is employed.In addition, cryogenic sensors and electronics are being developed as part of theE-TEST to detect vibrational motion in the penultimate cryogenic stage. Sincethe used silicon material is not transparent below the wavelengthstypically used for GW detectors, new optical components andlasers must be developed in the range above 1500 nm to reduce absorption andscattering losses. Therefore, solid-state and fiber lasers with a wavelength of 2090nm, matching high-efficiency photodiodes, and low-noise crystalline coatings arebeing developed. Accordingly, the key technologies provided by E-TEST servecrucially to reduce the limitations of the current generation of GW observatoriesand to determine the technical design for the next generation.

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Highly reflective Fiber Bragg Gratings in active fibers for fiber-integrated multi-mode resonators

Baer

Klein

Raguse

et al. 2022

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Improvement of the manufacturing process chain of sintered active XLMA fibers and their preforms for use in high power, high efficiency fiber resonators

Langner

Moser

Plass

et al. 2019

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Patrick Baer

Fiber Bragg gratings in active multimode XLMA fibers for high-power kW-class fiber lasers

Investigations on high-reflective Fiber-Bragg-Gratings in multimode fibers

E-TEST: a compact low-frequency isolator for a large cryogenic mirror

Highly reflective Fiber Bragg Gratings in active fibers for fiber-integrated multi-mode resonators

Improvement of the manufacturing process chain of sintered active XLMA fibers and their preforms for use in high power, high efficiency fiber resonators

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