Abstract

We propose a new frequency standard based on a 4f(14)6s6p(3)P(0) - 4f(13)6s(2)5d (J = 2) transition in neutral Yb. This transition has a potential for high stability and accuracy and the advantage of the highest sensitivity among atomic clocks to variation of the fine-structure constant a. We find its dimensionless a-variation enhancement factor to be K = -15, in comparison to the most sensitive current clock (Yb+ E3, K = -6), and it is 18 times larger than in any neutral-atomic clocks (Hg, K = 0.8). Combined with the unprecedented stability of an optical lattice clock for neutral atoms, this high sensitivity opens new perspectives for searches for ultralight dark matter and for tests of theories beyond the standard model of elementary particles. Moreover, together with the well-established S-1(0) - P-3(0) transition, one will have two clock transitions operating in neutral Yb, whose interleaved interrogations may further reduce systematic uncertainties of such clock-comparison experiments.

Publication Details
Publication Type
Journal Article
Year of Publication
2018
Volume
120
DOI
10.1103/PhysRevLett.120.173001
Journal
Physical Review Letters
Contributors
Groups