Terahertz spectroscopy of ground state HD18O

Shanshan Yu; John C. Pearson; Brian J. Drouin; Charles E. Miller; Kaori Kobayashi; Fusakazu Matsushima

doi:10.1016/j.jms.2016.07.005

Terahertz spectroscopy of ground state HD¹⁸O

Shanshan Yu^*, John C. Pearson, Brian J. Drouin, Charles E. Miller, Kaori Kobayashi, Fusakazu Matsushima

^*Corresponding author for this work

Department of Physics

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Terahertz absorption spectroscopy was employed to measure the ground state pure rotational transitions of the water isotopologue HD180. A total of 105 pure rotational transitions were observed in the 0.5–5.0 THz region with ∼100 kHz accuracy for the first time. The observed positions were fit to experimental accuracy using the Euler series expansion of the asymmetric-top Hamiltonian together with the literature Microwave, Far-IR and IR data in the ground state and ν₂. The new measurements and predictions reported here support the analysis of astronomical observations by high-resolution spectroscopic telescopes such as SOFIA and ALMA where laboratory rest frequencies with uncertainties of 1 MHz or less are required for proper analysis of velocity resolved astrophysical data.

Original language	English
Pages (from-to)	27-31
Number of pages	5
Journal	Journal of Molecular Spectroscopy
Volume	328
DOIs	https://doi.org/10.1016/j.jms.2016.07.005
State	Published - 2016/10/01

Keywords

Euler Hamiltonian
HD180
Large centrifugal distortion
THz spectroscopy

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Spectroscopy
Physical and Theoretical Chemistry

Access to Document

10.1016/j.jms.2016.07.005

Cite this

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title = "Terahertz spectroscopy of ground state HD18O",

abstract = "Terahertz absorption spectroscopy was employed to measure the ground state pure rotational transitions of the water isotopologue HD180. A total of 105 pure rotational transitions were observed in the 0.5–5.0 THz region with ∼100 kHz accuracy for the first time. The observed positions were fit to experimental accuracy using the Euler series expansion of the asymmetric-top Hamiltonian together with the literature Microwave, Far-IR and IR data in the ground state and ν2. The new measurements and predictions reported here support the analysis of astronomical observations by high-resolution spectroscopic telescopes such as SOFIA and ALMA where laboratory rest frequencies with uncertainties of 1 MHz or less are required for proper analysis of velocity resolved astrophysical data.",

keywords = "Euler Hamiltonian, HD180, Large centrifugal distortion, THz spectroscopy",

author = "Shanshan Yu and Pearson, {John C.} and Drouin, {Brian J.} and Miller, {Charles E.} and Kaori Kobayashi and Fusakazu Matsushima",

note = "Publisher Copyright: {\textcopyright} 2016 Elsevier Inc.",

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doi = "10.1016/j.jms.2016.07.005",

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T1 - Terahertz spectroscopy of ground state HD18O

AU - Yu, Shanshan

AU - Pearson, John C.

AU - Drouin, Brian J.

AU - Miller, Charles E.

AU - Kobayashi, Kaori

AU - Matsushima, Fusakazu

PY - 2016/10/1

Y1 - 2016/10/1

N2 - Terahertz absorption spectroscopy was employed to measure the ground state pure rotational transitions of the water isotopologue HD180. A total of 105 pure rotational transitions were observed in the 0.5–5.0 THz region with ∼100 kHz accuracy for the first time. The observed positions were fit to experimental accuracy using the Euler series expansion of the asymmetric-top Hamiltonian together with the literature Microwave, Far-IR and IR data in the ground state and ν2. The new measurements and predictions reported here support the analysis of astronomical observations by high-resolution spectroscopic telescopes such as SOFIA and ALMA where laboratory rest frequencies with uncertainties of 1 MHz or less are required for proper analysis of velocity resolved astrophysical data.

AB - Terahertz absorption spectroscopy was employed to measure the ground state pure rotational transitions of the water isotopologue HD180. A total of 105 pure rotational transitions were observed in the 0.5–5.0 THz region with ∼100 kHz accuracy for the first time. The observed positions were fit to experimental accuracy using the Euler series expansion of the asymmetric-top Hamiltonian together with the literature Microwave, Far-IR and IR data in the ground state and ν2. The new measurements and predictions reported here support the analysis of astronomical observations by high-resolution spectroscopic telescopes such as SOFIA and ALMA where laboratory rest frequencies with uncertainties of 1 MHz or less are required for proper analysis of velocity resolved astrophysical data.

KW - Euler Hamiltonian

KW - HD180

KW - Large centrifugal distortion

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