Wednesday, January 30, 2013

1301.6907 (Atreju Tauschinsky et al.)

High-Precision Measurement of Rydberg State Hyperfine Splitting in a
Room-Temperature Vapour Cell
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Atreju Tauschinsky, Richard Newell, H. B. van Linden van den Heuvell, R. J. C. Spreeuw
We present direct measurements of the hyperfine splitting of Rydberg states in rubidium 87 using Electromagnetically Induced Transparency (EIT) spectroscopy in a room-temperature vapour cell. With this method, and in spite of Doppler-broadening, line-widths of 3.7 MHz FWHM, i.e. significantly below the intermediate state natural linewidth are reached. This allows resolving hyperfine splittings for Rydberg s-states with n=20...24. With this method we are able to determine Rydberg state hyperfine splittings with an accuracy of approximately 100 kHz. Ultimately our method allows accuracies of order 5 kHz to be reached. Furthermore we present a direct measurement of hyperfine-resolved Rydberg state Stark-shifts. These results will be of great value for future experiments relying on excellent knowledge of Rydberg-state energies and
View original: http://arxiv.org/abs/1301.6907

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