Laboratory rotational spectra of the dimethyl ether 13C-isotopologues up to 1.5 THz

M. Koerber; Suzanne Elisabeth Bisschop; C. P. Endres; M. Kleshcheva; R. W. H. Pohl; A. Klein; F. Lewen; S. Schlemmer

doi:10.1051/0004-6361/201321898

Laboratory rotational spectra of the dimethyl ether ¹³C-isotopologues up to 1.5 THz

M. Koerber, Suzanne Elisabeth Bisschop, C. P. Endres, M. Kleshcheva, R. W. H. Pohl, A. Klein, F. Lewen, S. Schlemmer

Astrophysics and Planetary Science

16 Citations (Scopus)

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Abstract

Context. Dimethyl ether is found in high abundance in the interstellar medium. Owing to its strong and dense spectrum throughout the entire microwave and terahertz regime, it contributes to the spectral confusion in astronomical line surveys. The great sensitivity of new observatories like ALMA enhances the need for reliable spectroscopic data, especially for isotopic species of abundant molecules. In addition, the study of the interstellar ¹²C/¹³C isotopic ratio can be used as a tracer of the formation process of a molecular species, and thus it gives insight into the chemical evolution of the observed region. Aims. The interpretation of astronomical observations depends on the knowledge of accurate rest frequencies and intensities. The objective of this work is to provide spectroscopic data for the two ¹³C-isotopologues of dimethyl ether in the vibrational ground state. Methods. High-resolution rotational-torsional spectra of ¹²CH₃O¹³CH₃ and ( ¹³CH₃)₂O have been measured in the laboratory covering frequencies up to 1.5 THz. The analysis is based on an effective rotational Hamiltonian for molecules with two large-amplitude motions. Results. Predictions of the complete ground state rotational spectrum of dimethyl ether-¹³C₁ and-¹³C₂ up to 2 THz are presented with accuracies better than 1 MHz. Based on the laboratory work, transitions of ¹²CH₃O¹³CH₃ dimethyl ether have been detected for the first time in a large submillimeter line survey of the high-mass star forming region G327.3-0.6 performed with the APEX telescope.

Original language	English
Article number	A112
Journal	Astronomy & Astrophysics
Volume	558
Number of pages	8
ISSN	0004-6361
DOIs	https://doi.org/10.1051/0004-6361/201321898
Publication status	Published - 1 Oct 2013

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Koerber_2013_Laboratory_rotationalFinal published version, 370 KBLicence: Other

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@article{82bcd87d50c143968d47c14afc86a2f8,

title = "Laboratory rotational spectra of the dimethyl ether 13C-isotopologues up to 1.5 THz",

abstract = "Context. Dimethyl ether is found in high abundance in the interstellar medium. Owing to its strong and dense spectrum throughout the entire microwave and terahertz regime, it contributes to the spectral confusion in astronomical line surveys. The great sensitivity of new observatories like ALMA enhances the need for reliable spectroscopic data, especially for isotopic species of abundant molecules. In addition, the study of the interstellar 12C/13C isotopic ratio can be used as a tracer of the formation process of a molecular species, and thus it gives insight into the chemical evolution of the observed region. Aims. The interpretation of astronomical observations depends on the knowledge of accurate rest frequencies and intensities. The objective of this work is to provide spectroscopic data for the two 13C-isotopologues of dimethyl ether in the vibrational ground state. Methods. High-resolution rotational-torsional spectra of 12CH3O13CH3 and ( 13CH3)2O have been measured in the laboratory covering frequencies up to 1.5 THz. The analysis is based on an effective rotational Hamiltonian for molecules with two large-amplitude motions. Results. Predictions of the complete ground state rotational spectrum of dimethyl ether-13C1 and-13C2 up to 2 THz are presented with accuracies better than 1 MHz. Based on the laboratory work, transitions of 12CH3O13CH3 dimethyl ether have been detected for the first time in a large submillimeter line survey of the high-mass star forming region G327.3-0.6 performed with the APEX telescope.",

author = "M. Koerber and Bisschop, {Suzanne Elisabeth} and Endres, {C. P.} and M. Kleshcheva and Pohl, {R. W. H.} and A. Klein and F. Lewen and S. Schlemmer",

year = "2013",

month = oct,

day = "1",

doi = "10.1051/0004-6361/201321898",

language = "English",

volume = "558",

journal = "Astronomy and Astrophysics Supplement Series",

issn = "0004-6361",

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TY - JOUR

T1 - Laboratory rotational spectra of the dimethyl ether 13C-isotopologues up to 1.5 THz

AU - Koerber, M.

AU - Bisschop, Suzanne Elisabeth

AU - Endres, C. P.

AU - Kleshcheva, M.

AU - Pohl, R. W. H.

AU - Klein, A.

AU - Lewen, F.

AU - Schlemmer, S.

PY - 2013/10/1

Y1 - 2013/10/1

N2 - Context. Dimethyl ether is found in high abundance in the interstellar medium. Owing to its strong and dense spectrum throughout the entire microwave and terahertz regime, it contributes to the spectral confusion in astronomical line surveys. The great sensitivity of new observatories like ALMA enhances the need for reliable spectroscopic data, especially for isotopic species of abundant molecules. In addition, the study of the interstellar 12C/13C isotopic ratio can be used as a tracer of the formation process of a molecular species, and thus it gives insight into the chemical evolution of the observed region. Aims. The interpretation of astronomical observations depends on the knowledge of accurate rest frequencies and intensities. The objective of this work is to provide spectroscopic data for the two 13C-isotopologues of dimethyl ether in the vibrational ground state. Methods. High-resolution rotational-torsional spectra of 12CH3O13CH3 and ( 13CH3)2O have been measured in the laboratory covering frequencies up to 1.5 THz. The analysis is based on an effective rotational Hamiltonian for molecules with two large-amplitude motions. Results. Predictions of the complete ground state rotational spectrum of dimethyl ether-13C1 and-13C2 up to 2 THz are presented with accuracies better than 1 MHz. Based on the laboratory work, transitions of 12CH3O13CH3 dimethyl ether have been detected for the first time in a large submillimeter line survey of the high-mass star forming region G327.3-0.6 performed with the APEX telescope.

AB - Context. Dimethyl ether is found in high abundance in the interstellar medium. Owing to its strong and dense spectrum throughout the entire microwave and terahertz regime, it contributes to the spectral confusion in astronomical line surveys. The great sensitivity of new observatories like ALMA enhances the need for reliable spectroscopic data, especially for isotopic species of abundant molecules. In addition, the study of the interstellar 12C/13C isotopic ratio can be used as a tracer of the formation process of a molecular species, and thus it gives insight into the chemical evolution of the observed region. Aims. The interpretation of astronomical observations depends on the knowledge of accurate rest frequencies and intensities. The objective of this work is to provide spectroscopic data for the two 13C-isotopologues of dimethyl ether in the vibrational ground state. Methods. High-resolution rotational-torsional spectra of 12CH3O13CH3 and ( 13CH3)2O have been measured in the laboratory covering frequencies up to 1.5 THz. The analysis is based on an effective rotational Hamiltonian for molecules with two large-amplitude motions. Results. Predictions of the complete ground state rotational spectrum of dimethyl ether-13C1 and-13C2 up to 2 THz are presented with accuracies better than 1 MHz. Based on the laboratory work, transitions of 12CH3O13CH3 dimethyl ether have been detected for the first time in a large submillimeter line survey of the high-mass star forming region G327.3-0.6 performed with the APEX telescope.

U2 - 10.1051/0004-6361/201321898

DO - 10.1051/0004-6361/201321898

M3 - Journal article

SN - 0004-6361

VL - 558

JO - Astronomy and Astrophysics Supplement Series

JF - Astronomy and Astrophysics Supplement Series

M1 - A112

ER -

Laboratory rotational spectra of the dimethyl ether 13C-isotopologues up to 1.5 THz

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Laboratory rotational spectra of the dimethyl ether ¹³C-isotopologues up to 1.5 THz