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Propagation of atoms in a magnetic waveguide on a chip

Abstract : In this thesis we study the propagation of atoms in a magnetic toroidal waveguide, with the aim of developing an inertial sensor. Here, we present different strategies to create the waveguide on an atom chip for a guided Sagnac atom interferometer. We devised three solutions which can be achieved using the same wire configuration. They use the current modulation technique, from a new point of view, which simultaneously tackles the problem of wire corrugation and spin dependent Majorana atom losses. The effect of the multimode propagation of the atoms in the guide is also quantified in this thesis. Using a simple model, we covered the propagation of noninteracting ultracold and thermal gases. We identified the operating conditions to realize a cold atom interferometer with a large dynamic range essential for applications in inertial navigation. Experimentally, the thesis describes the realisation and characterisation of the cold atom source close to a gold coated substrate, as well as the implementation and the characterisation of the atom detection systems.
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Submitted on : Tuesday, November 20, 2018 - 1:03:41 AM
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Satyanarayana Bade. Propagation of atoms in a magnetic waveguide on a chip. Physics [physics]. Université Pierre et Marie Curie - Paris VI, 2016. English. ⟨NNT : 2016PA066718⟩. ⟨tel-01927599v1⟩



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