English

Improved ionization potential of calcium using frequency-comb based Rydberg spectroscopy

Atomic Physics 2023-01-04 v1

Abstract

We report new frequency-comb-based measurements of Ca Rydberg energy levels. Counter-propagating laser beams at 390 nm and 423 nm excite Ca atoms from the 4s2 1\mboxS04s^2~^1\mbox{S}_0 ground state to 4sns 1\mboxS04sns~^1\mbox{S}_0 Rydberg levels with nn ranging from 40 to 110. Near-resonant two-photon two-color excitation of atoms in a thermal beam makes it possible to eliminate the first-order Doppler shift. The resulting lineshapes are symmetric and Gaussian. We verify laser metrology and absolute accuracy by reproducing measurements of well-known transitions in Cs, close to the fundamental wavelengths of our frequency-doubled ti:sapphire lasers. From the measured transition energies we derive the ionization potential of Ca, EIP=1,478,154,283.42±0.08\mbox(statistical)±0.07\mbox(systematic)E_{\rm IP} = 1, 478, 154, 283.42 \pm 0.08 \mbox{(statistical)} \pm 0.07 \mbox{(systematic)} MHz, improving the previous best determination by a factor of 11.

Keywords

Cite

@article{arxiv.2211.02783,
  title  = {Improved ionization potential of calcium using frequency-comb based Rydberg spectroscopy},
  author = {Chanhyun Pak and Matthew J. Schlitters and Scott D. Bergeson},
  journal= {arXiv preprint arXiv:2211.02783},
  year   = {2023}
}

Comments

submitted to Phys Rev A

R2 v1 2026-06-28T05:14:02.610Z