Investigation of microwave transitions and nonlinear magneto-optical
  rotation in anti-relaxation-coated cells

C. Rahman; D. Budker; D. F. Kimball; E. B. Aleksandrov; F. Grossetete; H. G. Robinson; H. Robinson; J. Kitching; J. Vanier; L. Hollberg; M. Tetu; S. Pustelny; T. Hirata; V. V. Yashchuk

research

Investigation of microwave transitions and nonlinear magneto-optical rotation in anti-relaxation-coated cells

Authors: C. Rahman
D. Budker
D. F. Kimball
E. B. Aleksandrov
F. Grossetete
H. G. Robinson
H. Robinson
J. Kitching
J. Vanier
L. Hollberg
M. Tetu
S. Pustelny
T. Hirata
V. V. Yashchuk
Publication date: 4 June 2004
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Using laser optical pumping, widths and frequency shifts are determined for microwave transitions between ground-state hyperfine components of

^{85}

Rb and

^{87}

Rb atoms contained in vapor cells with alkane anti-relaxation coatings. The results are compared with data on Zeeman relaxation obtained in nonlinear magneto-optical rotation (NMOR) experiments, a comparison important for quantitative understanding of spin-relaxation mechanisms in coated cells. By comparing cells manufactured over a forty-year period we demonstrate the long-term stability of coated cells, an important property for atomic clocks and magnetometers