Optical frequency standard with Sr+: A theoretical many-body approach
Abstract
Demands from several areas of science and technology have lead to a worldwide search for accurate optical clocks with an uncertainty of 1 part in 1018, which is 103 times more accurate than the present day cesium atomic clocks based on microwave frequency regime. In this article we discuss the electric quadrupole and the hyperfine shifts in the 5s 2S1/24d 2D5/2 clock transition in Sr+, one of the most promising candidates for next generation optical clocks. We have applied relativistic coupled cluster theory for determining the electric quadrupole moment of the 4d 2D5/2 state of 88Sr+ and the magnetic dipole (A) and electric quadrupole (B) hyperfine constants for the 5s 2S1/2 and 4d 2D5/2 states which are important in the study of frequency standards with Sr+. The effects of electron correlation which are very crucial for the accurate determination of these quantities have been discussed.
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