"Using Frequency-Narrowed, Tunable Laser Diode Arrays with Integrated Volume Holographic Gratings for Spin-Exchange Optical Pumping at High Resonant Fluxes and Xenon Densities" by Nicholas Whiting

Article

Using Frequency-Narrowed, Tunable Laser Diode Arrays with Integrated Volume Holographic Gratings for Spin-Exchange Optical Pumping at High Resonant Fluxes and Xenon Densities

Applied Physics B (2012)

Nicholas Whiting, Rowan University
Panayiotis Nikolaou, Vanderbilt University
Neil A Eschmann, Southern Illinois University Carbondale
Michael J. Barlow, University of Nottingham
R Lammert, QPC Lasers
J Ungar, QPC Lasers
W Hu, QPC Lasers
Laurent Vaissie, QPC Lasers
Boyd M. Goodson, Southern Illinois University Carbondale

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Abstract

Next-generation laser diode arrays with integrated ‘on-chip’ volume holographic gratings can provide high power with spectrally narrowed output that can be tuned about the rubidium D1 line—without causing significant changes to the laser’s flux or spectral profile. These properties were exploited to independently evaluate the effects of varying the laser centroid wavelength and power on batch-mode Rb/129Xe spin-exchange optical pumping (SEOP) as functions of xenon partial pressure and cell temperature...

Disciplines

Publication Date

2012

DOI

0.1007/s00340-012-4924-x

Citation Information

Nicholas Whiting, Panayiotis Nikolaou, Neil A Eschmann, Michael J. Barlow, et al.. "Using Frequency-Narrowed, Tunable Laser Diode Arrays with Integrated Volume Holographic Gratings for Spin-Exchange Optical Pumping at High Resonant Fluxes and Xenon Densities" Applied Physics B Vol. 106 (2012) p. 775 - 788
Available at: http://works.bepress.com/nicholas-whiting/8/