Toyama Microwave Atlas

CH₃CH₂OCH₃, trans-ethyl methyl ether, ground state, ν₃₀=1, ν₂₉=1, ν₂₈=1

Version 2

Date of Entry March 2016

Contributor K. Kobayashi

Lines Listed 3469 (ground state) 2088 (ν₃₀=1)
2248 (ν₂₉=1)
1427 (ν₂₈=1)

Frequency / GHz 9-337.1

Max J 85 (ground state) 92 (ν₃₀=1)
78 (ν₂₉=1)
49 (ν₂₈=1)

Max K 16 (ground state) 9 (ν₃₀=1)
6 (ν₂₉=1)
5 (ν₂₈=1)

log STR0

log STR1

Isotope Corr.

Egy / (cm^-1)

μa / D

μb / D

μc / D

A / MHz

B / MHz

C / MHz

Q(2000.)

Q(1000.)

Q(500.0)

Q(300.0)

Q(225.0)

Q(150.0)

Q(75.00)

Q(37.50)

Q(18.75)

Q(9.375)

molecular weight/u 60.058

References
Abbreviations of the data sources.
KNZW: measurement with the use of the pulsed-nozzle jet Fourier transform spectrometer at Kanazawa University TYAM : measurement with the use of the conventional spectrometer at the University of Toyama. TYMF : measurement of Fuchs et al. was replaced by the measurement at the University of Toyama. FUCH : measurement of Fuchs et al. DOUB: measurement in the DR experiment carried out at Kanazawa University. DOUF: measurement of Fuchs et al. was replaced by DR measurement at Kanazawa University. References "Reanalysis of the ground and three torsional excited states of trans-ethyl methyl ether by using an IAM-like tunneling matrix formalism," Kaori Kobayashi, Yusuke Sakai, Shozo Tsunekawa, Taihei Miyamoto, Masaharu Fujitake and Nobukimi Ohashi, Journal of Molecular Spectroscopy, Volume 321, Pages 63-77 (2016).
"The microwave spectroscopy of trans-ethyl methyl ether in the first skeletal torsionally excited state," Kaori Kobayashi, Takanori Matsui, Norimichi Mori, Shozo Tsunekawa, and Nobukimi Ohashi, Journal of Molecular Spectroscopy, Volume 251, Pages 301-304 (2008).
"The microwave spectroscopy of trans-ethyl methyl ether in the ν₂₉ =1 excited torsional state," Kaori Kobayashi, Takanori Matsui, Shozo Tsunekawa, and Nobukimi Ohashi, Journal of Molecular Spectroscopy, Volume 255, Pages 164-171 (2009).
"Analysis of the pure-rotational spectrum in the ν₂₈ =1 excited torsional state and torsional couplings of trans-ethyl methyl ether," Kaori Kobayashi, Takanori Matsui, Norimichi Mori, Shozo Tsunekawa, and Nobukimi Ohashi, Journal of Molecular Spectroscopy, Volume 269, Pages 242-247 (2011).
"trans-Ethyl Methyl Ether: Assignments and Predictions up to 400 GHz for the Vibrational-Torsional Ground State" U. Fuchs, G. Winnewisser, P. Groner, F. C. De Lucia, E. Herbst, Astrophys. J. Suppl. 144, 277-286 (2003).

Version	2
Date of Entry	March 2016
Contributor	K. Kobayashi
Lines Listed	3469 (ground state) 2088 (ν₃₀=1) 2248 (ν₂₉=1) 1427 (ν₂₈=1)
Frequency / GHz	9-337.1
Max J	85 (ground state) 92 (ν₃₀=1) 78 (ν₂₉=1) 49 (ν₂₈=1)
Max K	16 (ground state) 9 (ν₃₀=1) 6 (ν₂₉=1) 5 (ν₂₈=1)
log STR0
log STR1
Isotope Corr.
Egy / (cm^-1)
μa / D
μb / D
μc / D
A / MHz
B / MHz
C / MHz
Q(2000.)
Q(1000.)
Q(500.0)
Q(300.0)
Q(225.0)
Q(150.0)
Q(75.00)
Q(37.50)
Q(18.75)
Q(9.375)
molecular weight/u	60.058
References Abbreviations of the data sources. KNZW: measurement with the use of the pulsed-nozzle jet Fourier transform spectrometer at Kanazawa University TYAM : measurement with the use of the conventional spectrometer at the University of Toyama. TYMF : measurement of Fuchs et al. was replaced by the measurement at the University of Toyama. FUCH : measurement of Fuchs et al. DOUB: measurement in the DR experiment carried out at Kanazawa University. DOUF: measurement of Fuchs et al. was replaced by DR measurement at Kanazawa University. References "Reanalysis of the ground and three torsional excited states of trans-ethyl methyl ether by using an IAM-like tunneling matrix formalism," Kaori Kobayashi, Yusuke Sakai, Shozo Tsunekawa, Taihei Miyamoto, Masaharu Fujitake and Nobukimi Ohashi, Journal of Molecular Spectroscopy, Volume 321, Pages 63-77 (2016). "The microwave spectroscopy of trans-ethyl methyl ether in the first skeletal torsionally excited state," Kaori Kobayashi, Takanori Matsui, Norimichi Mori, Shozo Tsunekawa, and Nobukimi Ohashi, Journal of Molecular Spectroscopy, Volume 251, Pages 301-304 (2008). "The microwave spectroscopy of trans-ethyl methyl ether in the ν₂₉ =1 excited torsional state," Kaori Kobayashi, Takanori Matsui, Shozo Tsunekawa, and Nobukimi Ohashi, Journal of Molecular Spectroscopy, Volume 255, Pages 164-171 (2009). "Analysis of the pure-rotational spectrum in the ν₂₈ =1 excited torsional state and torsional couplings of trans-ethyl methyl ether," Kaori Kobayashi, Takanori Matsui, Norimichi Mori, Shozo Tsunekawa, and Nobukimi Ohashi, Journal of Molecular Spectroscopy, Volume 269, Pages 242-247 (2011). "trans-Ethyl Methyl Ether: Assignments and Predictions up to 400 GHz for the Vibrational-Torsional Ground State" U. Fuchs, G. Winnewisser, P. Groner, F. C. De Lucia, E. Herbst, Astrophys. J. Suppl. 144, 277-286 (2003).

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Kaori Kobayashi (Department of Physics, University of Toyama)
kaori-at-sci.u-toyama.ac.jp (replace -at- with @)
Last update, Mar. 3rd 2016

CH3CH2OCH3, trans-ethyl methyl ether, ground state, ν30=1, ν29=1, ν28=1

CH₃CH₂OCH₃, trans-ethyl methyl ether, ground state, ν₃₀=1, ν₂₉=1, ν₂₈=1