A quantitative study of spin noise spectroscopy in a classical gas of $^{41}$K atoms

Details A quantitative study of spin noise spectroscopy in a classical gas of $^{41}$K atoms A quantitative study of spin noise spectroscopy in a classical gas of $^{41}$K atoms

2006-04-24

arxiv.org/abs/cond-mat/0604522v1

Phys. Rev. A 74, 043819 (2006)

Physics

Condensed Matter

Other Condensed Matter

Scientific paper

10.1103/PhysRevA.74.043819

We present a general derivation of the electron spin noise power spectrum in alkali gases as measured by optical Faraday rotation, which applies to both classical gases at high temperatures as well as ultracold quantum gases. We show that the spin-noise power spectrum is determined by an electron spin-spin correlation function, and we find that measurements of the spin-noise power spectra for a classical gas of $^{41}$K atoms are in good agreement with the predicted values. Experimental and theoretical spin noise spectra are directly and quantitatively compared in both longitudinal and transverse magnetic fields up to the high magnetic field regime (where Zeeman energies exceed the intrinsic hyperfine energy splitting of the $^{41}$K ground state).

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