C. J. Campbell
Georgia Institute of Technology
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Publication
Featured researches published by C. J. Campbell.
Physical Review Letters | 2012
C. J. Campbell; A. G. Radnaev; A. Kuzmich; V. A. Dzuba; V. V. Flambaum; Andrei Derevianko
The 7.6(5) eV nuclear magnetic-dipole transition in a single 229Th3+ ion may provide the foundation for an optical clock of superb accuracy. A virtual clock transition composed of stretched states within the 5F(5/2) electronic ground level of both nuclear ground and isomeric manifolds is proposed. It is shown to offer unprecedented systematic shift suppression, allowing for clock performance with a total fractional inaccuracy approaching 1×10(-19).
Physical Review Letters | 2011
C. J. Campbell; A. G. Radnaev; A. Kuzmich
We have produced laser-cooled Wigner crystals of 229Th3+ in a linear Paul trap. The magnetic dipole (A) and electric quadrupole (B) hyperfine constants for four low-lying electronic levels and the relative isotope shifts with respect to 232Th3+ for three low-lying optical transitions are measured. Using the hyperfine B constants in conjunction with prior atomic structure calculations, a new value of the spectroscopic nuclear electric quadrupole moment Q=3.11(16) eb is deduced. These results are a step towards optical excitation of the low-lying isomer level in the 229Th nucleus.
Physical Review A | 2013
M. S. Safronova; U. I. Safronova; Alexander G. Radnaev; C. J. Campbell; A. Kuzmich
We calculate the A and B hyperfine constants for the low-lying states of 229Th3+ using a high-precision relativistic all-order approach. By combining these calculations with measurements of the 6d and 5f hyperfine constants [C. J. Campbell et al., Phys. Rev. Lett. 106, 223001 (2011)], we determine the magnetic dipole \mu=0.360(7)\mu_B and the electric-quadrupole Q=3.11(6) eb moments of the 229Th nucleus. Our value for \mu is five times more accurate and is 22% smaller than the best previous value \mu=0.46(4) \mu_B [S. Gerstenkorn et al., J. Phys. (Paris) 35, 483 (1974)], while our value for Q is the same, but 2.5 times more accurate than the 2011 result. A systematic study of hyperfine structure in eight other monovalent atoms supports our claim of 2% level uncertainty for
Physical Review A | 2012
A. G. Radnaev; C. J. Campbell; A. Kuzmich
\mu
Proceedings of the XXI International Conference on Atomic Physics | 2009
Shau-Yu Lan; R. Zhao; S. D. Jenkins; O. A. Collins; Yaroslav O. Dudin; Alexander G. Radnaev; C. J. Campbell; Dzmitry Matsukevich; T. A. B. Kennedy; A. Kuzmich
and Q in 229Th+3.
Physical Review Letters | 2009
C. J. Campbell; Adam Steele; Layne R. Churchill; Michael V. Depalatis; Dave E. Naylor; D. N. Matsukevich; A. Kuzmich; Michael S. Chapman
We excite the 717 nm electric quadrupole 6
Bulletin of the American Physical Society | 2014
Safronova; U.I. Safronova; Alexander G. Radnaev; C. J. Campbell; A. Kuzmich
D_{3/2}
43rd Annual Precise Time and Time Interval Systems and Applications Meeting 2011 | 2011
A. G. Radnaev; C. J. Campbell; A. Kuzmich
Physical Review A | 2010
R. Zhao; S. D. Jenkins; C. J. Campbell; D. N. Matsukevich; T. Chaneliere; T. A. B. Kennedy; A. Kuzmich
\leftrightarrow
Archive | 2010
Michael V. Depalatis; C. J. Campbell; Layne R. Churchill; Dave E. Naylor; Alexander G. Radnaev; Michael S. Chapman; A. Kuzmich
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