TY - JOUR
T1 - A Network Approach for the Accurate Characterization of Water Lines Observable in Astronomical Masers and Extragalactic Environments
AU - Ubachs, Wim
AU - Császár, Attila G.
AU - Diouf, Meissa L.
AU - Cozijn, Frank M.J.
AU - Tóbiás, Roland
N1 - Publisher Copyright:
© 2024 The Authors. Published by American Chemical Society.
PY - 2024/9/19
Y1 - 2024/9/19
N2 - The water molecule, crucial to the chemical composition and dynamics of the universe, is typically identified in its gas phase via radio and submillimeter transitions, with frequencies up to a few THz. To understand the physicochemical behavior of astronomical objects, accurate transition frequencies are required for these lines. From a set of 26 new and 564 previous Lamb dip measurements, utilizing our ultrasensitive laser-based spectrometers in the near-infrared region, ultrahigh-precision spectroscopic networks were set up for H216O and H218O, augmented with 40 extremely accurate frequencies taken from the literature. Based on kHz-accuracy paths of these networks, considerably improved line-center frequencies have been obtained for 35 observed or predicted maser lines of H216O, as well as for 14 transitions of astronomical significance of H218O. These reference frequencies, attached with 5-25 kHz uncertainties, may help future studies in various fields of astrochemistry and astrophysics, in particular when precise information is demanded about Doppler-velocity components, including the gas flows of galactic cores, the kinematics of planetary nebulae, or the motion in exoplanetary atmospheres.
AB - The water molecule, crucial to the chemical composition and dynamics of the universe, is typically identified in its gas phase via radio and submillimeter transitions, with frequencies up to a few THz. To understand the physicochemical behavior of astronomical objects, accurate transition frequencies are required for these lines. From a set of 26 new and 564 previous Lamb dip measurements, utilizing our ultrasensitive laser-based spectrometers in the near-infrared region, ultrahigh-precision spectroscopic networks were set up for H216O and H218O, augmented with 40 extremely accurate frequencies taken from the literature. Based on kHz-accuracy paths of these networks, considerably improved line-center frequencies have been obtained for 35 observed or predicted maser lines of H216O, as well as for 14 transitions of astronomical significance of H218O. These reference frequencies, attached with 5-25 kHz uncertainties, may help future studies in various fields of astrochemistry and astrophysics, in particular when precise information is demanded about Doppler-velocity components, including the gas flows of galactic cores, the kinematics of planetary nebulae, or the motion in exoplanetary atmospheres.
KW - extragalactic environments
KW - Lamb dips
KW - masers
KW - radio frequencies
KW - spectroscopy
KW - water
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U2 - 10.1021/acsearthspacechem.4c00161
DO - 10.1021/acsearthspacechem.4c00161
M3 - Article
AN - SCOPUS:85200892130
SN - 2472-3452
VL - 8
SP - 1901
EP - 1912
JO - ACS Earth and Space Chemistry
JF - ACS Earth and Space Chemistry
IS - 9
ER -