Doctoral theses
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Title |
Precision engineering for ultra-cold atoms and space experiments |
Alternative Title |
Μηχανική ακριβείας υπερψυχρών ατόμων και διαστημικών πειραμάτων |
Author
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Δρουγκάκης, Ιωάννης
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Thesis advisor
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Παπάζογλου, Δημήτριος
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Abstract |
Ultra-cold atom technologies promise significant improvements in the fields of sensing, com-
munication, quantum simulation, and computation. In order to fully exploit their capabilities,
many new technologies need to be developed. In this thesis I focus on three of them: precision
engineering of the guiding potentials, precision engineering of the input state for the atom
sensor, and ultra-stable and robust optical technologies for atom quantum space missions.
These three main challenges of the field are investigated in this thesis. First, I explore the
limits of excitationless transport of Bose-Einstein condensates (BECs) and thermal ultra-cold
atomic ensembles in magnetic time-averaged potential (TAAP) ring- shaped waveguides by
artificially introducing obstacles in the waveguide. We find that over a broad plateau no exci-
tation occurs up to a threshold value of roughness, where an abrupt increase in the excitation
of the atomic cloud is observed. I also present a robust and simple detection method, with
only 1% error in the measurement of the atom number. This constitutes an improvement
of about 10 in the precision of our experimental sequence. The method has potential as a
minimally destructive measurement technique for the quantum state and the temperature of
the ultra-cold cloud. Finally, a space-compatible optical fiber link was developed for atom
quantum space missions. High coupling efficiency of the order of 94% and RMS fluctua-
tions of less than 1% in the presence of 30K temperature fluctuations and vibrations were
achieved. These demonstrations pave the way towards the realization of practical devices
based on ultra-cold atoms.
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Language |
English |
Subject |
Cold atom detection |
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Space instrumentation |
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Διαστημικές διατάξεις |
Issue date |
2021-11-26 |
Collection
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School/Department--School of Sciences and Engineering--Department of Materials Science and Technology--Doctoral theses
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Type of Work--Doctoral theses
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Permanent Link |
https://elocus.lib.uoc.gr//dlib/e/8/4/metadata-dlib-1634724440-252228-25866.tkl
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Views |
530 |
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