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Theses

Interfaces fibrées entre atomes uniques et photons uniques

Abstract : The experimental study of entangled quantum states of single particle ensembles requires development of compact, robust and versatile systems. Motivated by miniaturization, stability and flexibility provided by optical fibers as light wave-guides, we present two experiments where optical fibers are used as interfaces for single atoms trapping and single photons collection into their guided modes. The first experiment combines a single mode fiber with an aspherical lens to produce a dipolar beam in which we trap a single rubidium atom by collisional blockade. This fiber-pigtailed optical tweezer is a simple, compact and versatile tool for single cold atom production. Cooling and light-assisted collisional loss rate in the dipole trap are increased by modulating the dipole beam intensity. The modulation and beam polarization effects on atom lifetime are presented and explained. With this setup, we realized a triggered single photon source, whose photons have a priori well defined spatial and spectral mode due to the optical fiber and the atomic transition.In a second part, we present the design of an experiment which optimally couples a trapped single atom register to a fiber Fabry-Pérot cavity and where a high numerical aperture lens allows for individual imaging and addressing. A sub-micron precision laser ablation setup is built to create and to analyze in situ desired mirror shapes on optical fiberend faces. Then, we present the produced double resonant fiber cavities with controlled birefringence. Eventually, we describe the created experimental setup for fast cold atom cloud production and transport towards the cavity.
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https://tel.archives-ouvertes.fr/tel-01382230
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Submitted on : Wednesday, October 3, 2018 - 5:42:07 PM
Last modification on : Tuesday, September 22, 2020 - 3:47:39 AM

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  • HAL Id : tel-01382230, version 2

Citation

Sébastien Garcia. Interfaces fibrées entre atomes uniques et photons uniques. Physique Quantique [quant-ph]. Ecole normale supérieure - ENS PARIS, 2015. Français. ⟨NNT : 2015ENSU0023⟩. ⟨tel-01382230v2⟩

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