Abstract
We derive an expression for the magnetic blackbody shift of hyperfine transitions such as the cesium primary reference transition which defines the second. The shift is found to be a complicated function of temperature, and has a ${T}^{2}$ dependence only in the high-temperature limit. We also calculate the shift of ground-state ${p}_{1/2}$ hyperfine transitions which have been proposed as new atomic clock transitions. In this case interaction with the ${p}_{3/2}$ fine-structure multiplet may be the dominant effect.
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