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Hauptverfasser: Clausen, Gloria, Scheidegger, Simon, Agner, Josef A., Schmutz, Hansjürg, Merkt, Frédéric
Format: Preprint
Veröffentlicht: 2023
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Online-Zugang:https://arxiv.org/abs/2308.08329
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author Clausen, Gloria
Scheidegger, Simon
Agner, Josef A.
Schmutz, Hansjürg
Merkt, Frédéric
author_facet Clausen, Gloria
Scheidegger, Simon
Agner, Josef A.
Schmutz, Hansjürg
Merkt, Frédéric
contents Skimmed supersonic beams provide intense, cold, collision-free samples of atoms and molecules are one of the most widely used tools in atomic and molecular laser spectroscopy. High-resolution optical spectra are typically recorded in a perpendicular arrangement of laser and supersonic beams to minimize Doppler broadening. Typical Doppler widths are nevertheless limited to tens of MHz by the residual transverse-velocity distribution in the gas-expansion cones. We present an imaging method to overcome this limitation which exploits the correlation between the positions of the atoms and molecules in the supersonic expansion and their transverse velocities - and thus their Doppler shifts. With the example of spectra of $(1\mathrm{s})(n\mathrm{p})\,^3\mathrm{P}_{0-2}\leftarrow (1\mathrm{s})(2\mathrm{s})\,^3\mathrm{S}_1$ transitions to high Rydberg states of metastable triplet He, we demonstrate the suppression of the residual Doppler broadening and a reduction of the full linewidths at half maximum to only about 1 MHz in the UV. Using a retro-reflection arrangement for the laser beam and a cross-correlation method, we determine Doppler-free spectra without any signal loss from the selection, by imaging, of atoms within ultranarrow transverse-velocity classes. As an illustration, we determine the ionization energy of triplet metastable He and confirm the significant discrepancy between recent experimental (Clausen et al., Phys. Rev. Lett. 127 093001 (2021)) and high-level theoretical (Patkós et al., Phys. Rev. A 103 042809 (2021)) values of this quantity.
format Preprint
id arxiv_https___arxiv_org_abs_2308_08329
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Imaging-assisted single-photon Doppler-free laser spectroscopy and the ionization energy of metastable triplet helium
Clausen, Gloria
Scheidegger, Simon
Agner, Josef A.
Schmutz, Hansjürg
Merkt, Frédéric
Atomic Physics
Skimmed supersonic beams provide intense, cold, collision-free samples of atoms and molecules are one of the most widely used tools in atomic and molecular laser spectroscopy. High-resolution optical spectra are typically recorded in a perpendicular arrangement of laser and supersonic beams to minimize Doppler broadening. Typical Doppler widths are nevertheless limited to tens of MHz by the residual transverse-velocity distribution in the gas-expansion cones. We present an imaging method to overcome this limitation which exploits the correlation between the positions of the atoms and molecules in the supersonic expansion and their transverse velocities - and thus their Doppler shifts. With the example of spectra of $(1\mathrm{s})(n\mathrm{p})\,^3\mathrm{P}_{0-2}\leftarrow (1\mathrm{s})(2\mathrm{s})\,^3\mathrm{S}_1$ transitions to high Rydberg states of metastable triplet He, we demonstrate the suppression of the residual Doppler broadening and a reduction of the full linewidths at half maximum to only about 1 MHz in the UV. Using a retro-reflection arrangement for the laser beam and a cross-correlation method, we determine Doppler-free spectra without any signal loss from the selection, by imaging, of atoms within ultranarrow transverse-velocity classes. As an illustration, we determine the ionization energy of triplet metastable He and confirm the significant discrepancy between recent experimental (Clausen et al., Phys. Rev. Lett. 127 093001 (2021)) and high-level theoretical (Patkós et al., Phys. Rev. A 103 042809 (2021)) values of this quantity.
title Imaging-assisted single-photon Doppler-free laser spectroscopy and the ionization energy of metastable triplet helium
topic Atomic Physics
url https://arxiv.org/abs/2308.08329