English

Inner-shell clock transition in atomic thulium with small BBR shift

Atomic Physics 2021-07-13 v2

Abstract

With direct polarizability measurements we demonstrated extremely low sensitivity of the inner-shell clock transition at 1.14μ1.14\,\mum in Tm atoms to external dc electric fields and black-body radiation (BBR). We measured differential polarizabilities of clock levels in Tm at wavelengths of 810--860\,nm and at 1064\,nm and inferred the static scalar differential polarizability of the inner-shell clock transition of 0.047(18)-0.047(18) atomic units corresponding to only 2×10182\times10^{-18} fractional frequency shift from BBR at the room temperature. This is a few orders of magnitude smaller compared to the BBR shift of the clock transitions in the neutral atoms (Sr, Yb, Hg) and competes with the least sensitive ion species (e.g. Al+^+ or Lu+^+). For the 1.14μ1.14\,\mum clock transition, we experimentally determined the "magic" wavelength of 813.320(6)813.320(6)\,nm, recorded the transition spectral linewidth of 1010\,Hz, and measured its absolute frequency of 262954938269213(30)262\,954\,938\,269\,213(30)\,Hz.

Keywords

Cite

@article{arxiv.1809.02215,
  title  = {Inner-shell clock transition in atomic thulium with small BBR shift},
  author = {A. Golovisin and E. Fedorova and D. Tregubov and D. Sukachev and K. Khabarova and V. Sorokin and N. Kolachevsky},
  journal= {arXiv preprint arXiv:1809.02215},
  year   = {2021}
}

Comments

9 pages, revised contribution from BBR magnetic field and electric quadrupole shift

R2 v1 2026-06-23T03:57:19.741Z