Investigation of the van der waals interactions in a Bose-Einstein condensate via electromagnetically-induced transparency

This thesis focusses on the development of the experimental system used to study the eff ect of Rydberg blockade interactions in clouds of ultracold atoms and quantum degenerate gases. Initial measurements have been performed quantifying these interactions, like the Rydberg blockade radius and its v...

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Main Author: Mohan, Anushyam
Other Authors: Rainer H. Dumke
Format: Theses and Dissertations
Language:English
Published: 2013
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Online Access:https://hdl.handle.net/10356/51126
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-511262023-02-28T23:52:57Z Investigation of the van der waals interactions in a Bose-Einstein condensate via electromagnetically-induced transparency Mohan, Anushyam Rainer H. Dumke School of Physical and Mathematical Sciences DRNTU::Science::Physics::Atomic physics::Quantum theory This thesis focusses on the development of the experimental system used to study the eff ect of Rydberg blockade interactions in clouds of ultracold atoms and quantum degenerate gases. Initial measurements have been performed quantifying these interactions, like the Rydberg blockade radius and its variation with the density of sample, which can be very useful in devising eff cient systems for quantum information processing in quantum gates and/or as probes for detecting impurities in a sample as has been recently proposed [1]. The e ffects of the Rydberg atom interactions are probed via electromagnetically-induced transparency (EIT). The experimental system and apparatus required for the production and detection of ultracold atoms and quantum degenerate gases is developed. Furthermore, the laser systems used for the production of Rydberg atoms via the two-photon transitions are also described. To highlight the density dependent eff ects of the Rydberg atom interactions and the unique advantages o ered to us by the Rydberg blockade eff ect, we compare the EIT experiments performed on a Λ-system using Raman lasers and the experiments performed with a ladder system involving the ground state, the fi rst excited state and a Rydberg state of Rb-87. The manifestation of the blockade eff ect with atom number density, with temperature of the atoms and with the principal quantum number of the Rydberg state to which the atoms are excited, is discussed. The usefulness of the Rydberg blockade interaction as a phenomenon to be exploited in quantum information processing and an outline of the future directions of our experiments concludes the thesis. DOCTOR OF PHILOSOPHY (SPMS) 2013-01-28T07:47:34Z 2013-01-28T07:47:34Z 2013 2013 Thesis Mohan, A. (2013). Investigation of the van der waals interactions in a Bose-Einstein condensate via electromagnetically-induced transparency. Doctoral thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/51126 10.32657/10356/51126 en 156 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Science::Physics::Atomic physics::Quantum theory
spellingShingle DRNTU::Science::Physics::Atomic physics::Quantum theory
Mohan, Anushyam
Investigation of the van der waals interactions in a Bose-Einstein condensate via electromagnetically-induced transparency
description This thesis focusses on the development of the experimental system used to study the eff ect of Rydberg blockade interactions in clouds of ultracold atoms and quantum degenerate gases. Initial measurements have been performed quantifying these interactions, like the Rydberg blockade radius and its variation with the density of sample, which can be very useful in devising eff cient systems for quantum information processing in quantum gates and/or as probes for detecting impurities in a sample as has been recently proposed [1]. The e ffects of the Rydberg atom interactions are probed via electromagnetically-induced transparency (EIT). The experimental system and apparatus required for the production and detection of ultracold atoms and quantum degenerate gases is developed. Furthermore, the laser systems used for the production of Rydberg atoms via the two-photon transitions are also described. To highlight the density dependent eff ects of the Rydberg atom interactions and the unique advantages o ered to us by the Rydberg blockade eff ect, we compare the EIT experiments performed on a Λ-system using Raman lasers and the experiments performed with a ladder system involving the ground state, the fi rst excited state and a Rydberg state of Rb-87. The manifestation of the blockade eff ect with atom number density, with temperature of the atoms and with the principal quantum number of the Rydberg state to which the atoms are excited, is discussed. The usefulness of the Rydberg blockade interaction as a phenomenon to be exploited in quantum information processing and an outline of the future directions of our experiments concludes the thesis.
author2 Rainer H. Dumke
author_facet Rainer H. Dumke
Mohan, Anushyam
format Theses and Dissertations
author Mohan, Anushyam
author_sort Mohan, Anushyam
title Investigation of the van der waals interactions in a Bose-Einstein condensate via electromagnetically-induced transparency
title_short Investigation of the van der waals interactions in a Bose-Einstein condensate via electromagnetically-induced transparency
title_full Investigation of the van der waals interactions in a Bose-Einstein condensate via electromagnetically-induced transparency
title_fullStr Investigation of the van der waals interactions in a Bose-Einstein condensate via electromagnetically-induced transparency
title_full_unstemmed Investigation of the van der waals interactions in a Bose-Einstein condensate via electromagnetically-induced transparency
title_sort investigation of the van der waals interactions in a bose-einstein condensate via electromagnetically-induced transparency
publishDate 2013
url https://hdl.handle.net/10356/51126
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