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Coherent Atomic Manipulation and Cooling electronic resource Interferometric Laser Cooling and Composite Pulses for Atom Interferometry / by Alexander J. Dunning.

By: Dunning, Alexander J [author.]Contributor(s): SpringerLink (Online service)Material type: TextTextSeries: Springer Theses, Recognizing Outstanding Ph.D. ResearchPublication details: Cham : Springer International Publishing : Imprint: Springer, 2015Edition: 1st ed. 2015Description: XV, 164 p. 60 illus., 37 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783319217383Subject(s): physics | Quantum Physics | Phase transformations (Statistical physics) | Condensed materials | Condensed matter | Quantum computers | Spintronics | Physics | Quantum Gases and Condensates | Quantum Information Technology, Spintronics | Quantum PhysicsDDC classification: 539 LOC classification: QC175.16.C6Online resources: Click here to access online
Contents:
Introduction -- Coherent Manipulation and Interferometry -- Rubidium MOT and Experimental Procedures -- Raman Pulse Generation -- Raman Pulse Characterisation -- Composite Raman Pulses -- Interferometric Cooling -- Conclusions.
In: Springer eBooksSummary: This work unites the concepts of laser cooling and matter-wave interferometry to develop an interferometric laser cooling technique in an experimental system of cold rubidium atoms. Serving as an introduction to graduate level coherent optical atomic manipulation, the thesis describes the theory of stimulated Raman transitions and atom interferometry, along with the experimental methods for preparing and manipulating cold atoms, before building on these foundations to explore tailored optical pulse sequences and novel atomic cooling techniques. Interferometric cooling, originally proposed by Weitz and Hänsch in 2000, is based upon the coherent broadband laser pulses of Ramsey interferometry and in principle allows laser cooling of atomic and molecular species outside the scope of traditional Doppler laser cooling. On the path toward cooling, composite pulses – quantum error correction methods, developed by chemists to mitigate the effects of in homogeneities in NMR spectroscopy – are investigated with a view to improving the performance of atom interferometers.
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Introduction -- Coherent Manipulation and Interferometry -- Rubidium MOT and Experimental Procedures -- Raman Pulse Generation -- Raman Pulse Characterisation -- Composite Raman Pulses -- Interferometric Cooling -- Conclusions.

This work unites the concepts of laser cooling and matter-wave interferometry to develop an interferometric laser cooling technique in an experimental system of cold rubidium atoms. Serving as an introduction to graduate level coherent optical atomic manipulation, the thesis describes the theory of stimulated Raman transitions and atom interferometry, along with the experimental methods for preparing and manipulating cold atoms, before building on these foundations to explore tailored optical pulse sequences and novel atomic cooling techniques. Interferometric cooling, originally proposed by Weitz and Hänsch in 2000, is based upon the coherent broadband laser pulses of Ramsey interferometry and in principle allows laser cooling of atomic and molecular species outside the scope of traditional Doppler laser cooling. On the path toward cooling, composite pulses – quantum error correction methods, developed by chemists to mitigate the effects of in homogeneities in NMR spectroscopy – are investigated with a view to improving the performance of atom interferometers.

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