M. Christ^1,2, C. Zimmermann¹, S. Neinert^1,2, B. Leykauf², K. Döringshoff^1,2, and M. Krutzik^1,2

Published in:

Adv. Quantum Technol., vol. 7, no. 12, pp. 2400076, doi:10.1002/qute.202400076 (2024).

Abstract:

Quantum technologies are advancing from fundamental research in specialized laboratories to practical applications in the field, driving the demand for robust, scalable, and reproducible system integration techniques. Ceramic components can be pivotal thanks to high stiffness, low thermal expansion, and excellent dimensional stability under thermal stress. Lithography-based additive manufacturing of technical ceramics is explored, especially for miniaturized physics packages and electro-optical systems. This approach enables functional systems with precisely manufactured, intricate structures, and high mechanical stability while minimizing size and weight. It facilitates rapid prototyping, simplifies fabrication and leads to highly integrated, reliable devices. As an electrical insulator with low outgassing and high temperature stability, printed technical ceramics such as Al₂O₃ and AlN bridge a technology gap in quantum technology and offer advantages over other printable materials. This potential is demonstrated with CerAMRef, a micro-integrated rubidium D2 line optical frequency reference on a printed Al₂O₃ micro-optical bench and housing. The frequency instability of the reference is comparable to laboratory setups while the volume of the integrated spectroscopy setup is only 6 mL. Potential for future applications is identified in compact atomic magnetometers, miniaturized optical atom traps, and vacuum system integration.

Topics:

additive manufacturing, miniaturized optical systems, miniaturized physics packages, optical frequency reference, quantum technology, technical ceramics, vacuum system integration

© 2024 Ferdinand-Braun-Institut and The Author(s). Advanced Quantum Technologies published by Wiley-VCH GmbH. This is an open access article under the terms of the Creative Commons Attribution-NonCommercial-NoDerivs License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non-commercial and no modifications or adaptations are made.
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