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Autores principales: Proske, M., Boles-Herresthal, S., Latorre-Bastidas, D., Varma, I., Skanda, R., Hellmig, O., Sengstock, K., Wenzlawski, A., Windpassinger, P.
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2603.15444
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author Proske, M.
Boles-Herresthal, S.
Latorre-Bastidas, D.
Varma, I.
Skanda, R.
Hellmig, O.
Sengstock, K.
Wenzlawski, A.
Windpassinger, P.
author_facet Proske, M.
Boles-Herresthal, S.
Latorre-Bastidas, D.
Varma, I.
Skanda, R.
Hellmig, O.
Sengstock, K.
Wenzlawski, A.
Windpassinger, P.
contents Compact, customizable, non-magnetic vacuum systems are a key requirement for many field applications of quantum technology based on cold atoms. We report on the development and construction of a compact, low-cost ultra-high vacuum compatible cell using the glass-ceramic MACOR. The cell offers a CF flange connection to commercial vacuum technology, as well as high numerical aperture viewports for precision optical measurements. The presented technology shows stable vacuum pressures of $< 1 \cdot 10^{-10}$ mbar for more than a year since the implementation into the vacuum system of a quantum gas experiment, further proving suitability for general quantum technology applications.
format Preprint
id arxiv_https___arxiv_org_abs_2603_15444
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle MACOR glass-ceramic based UHV cell for quantum technology applications
Proske, M.
Boles-Herresthal, S.
Latorre-Bastidas, D.
Varma, I.
Skanda, R.
Hellmig, O.
Sengstock, K.
Wenzlawski, A.
Windpassinger, P.
Quantum Physics
Compact, customizable, non-magnetic vacuum systems are a key requirement for many field applications of quantum technology based on cold atoms. We report on the development and construction of a compact, low-cost ultra-high vacuum compatible cell using the glass-ceramic MACOR. The cell offers a CF flange connection to commercial vacuum technology, as well as high numerical aperture viewports for precision optical measurements. The presented technology shows stable vacuum pressures of $< 1 \cdot 10^{-10}$ mbar for more than a year since the implementation into the vacuum system of a quantum gas experiment, further proving suitability for general quantum technology applications.
title MACOR glass-ceramic based UHV cell for quantum technology applications
topic Quantum Physics
url https://arxiv.org/abs/2603.15444