CDMS

Dimethyl ether

CH3OCH3

v=0

Tag: 46514

Version: 2*

Date of Entry: Nov. 1, 2011

Contributor: C. P. Endres

A	38788.18 MHz
B	10056.48 MHz
C	8886.83 MHz

mu_a	0 D
mu_b	1.302 D
mu_c	0 D

detected in ISM	yes CSM
Energy	0.0 1/cm
Frequency	< 2400 GHz
HTML-Title	CH3OCH3, v=0
image	PNG/DME_cat.png
Isotope Corr.	-0.0
Lines Listed	45654
log STR0	~ -10.0
log STR1	~ -8.0
Max. J	80

	All
Q(9.375 /K)	2669.7988
Q(18.75 /K)	7495.701
Q(37.5 /K)	21137.3351
Q(75.0 /K)	61604.1674
Q(150.0 /K)	221990.1994
Q(225.0 /K)	545256.5114
Q(300.0 /K)	1060153.51

Description

This entry is a combined CDMS and JPL entry.Dimethyl ether is an asymmetric top molecule with two equivalent methyl groups, which undergo large amplitude motions along the CO-bond. This internal rotation causes a splitting of each rotational level into four substates. The AA, EE, EA, and AE substates are represented by the v designations of 0, 1, 3, and 5, respectively.The work
(1) C. P. Endres, B. J. Drouin, J. C. Pearson,H. S. P. Müller, F. Lewen, S. Schlemmer, and T. F. Giesen, 2009, Astron. Astrophys. 504 635
gives a detailed overview of the experimental data and its analysis. Transitions up to almost 2.1 THz have been measured.As reported in this reference, previous data published by
(2) F. J. Lovas, H. Lutz, and H. Dreizler, 1979, J. Phys. Chem. Ref. Data 8, 1051,
(3) W. Neustock, A. Guarnieri, J. Demaison, and G. Wlodarczak, 1990, Z. Naturforsch. 45a, 702, and
(4) P. Groner, S. Albert, E. Herbst, and F. C. De Lucia, 1998, Astrophys. J., 500, 1059
has been included in the analysis.The lines are fit to an effective Hamiltonian for twosymmetric internal rotors proposed by P. Groner (see
(5) P. Groner, 1997, J. Chem. Phys., 107, 4483)
and the fitting routine erham has been used. The experimental lines have been reproduced within experimental uncertainty. While AA and AE states haveonly b-type transitions, EE and EA states have also c-type transitions.The spin statistical weights are 6, 16, 4, 2 for the ee and oo rotational states, and 10, 16, 4, 6 for the oe and eo states, as reported by
(6) R. Myers and E.B. Wilson, Jr., 1960, J.Chem.Phys. 33, 186.
A separate treatment of spin modifications at low temperatures is not required as dimethyl ether is only abundand in hot cores at temperatures of about 100 K.
The dipole moment has been taken from
(7) U. Blukis, R. J. Myers, and P. H. Kasai, 1963, J. Chem. Phys. 38, 2753.
The partition function takes excited states into account. While contributions of the torsionally excited states v₁₁=1 and v₁₅=1 were calculated based on a detailed analysis, contributions from the COC bending state (v₇=1) and from v₁₁+v₁₅=2 were estimated based on the ground state analysis.

ID	Name	Type	HFS
3253	erh046514_modcustom.out	mrg	0
3254	erham-Egy	egy	0

Filename	Type	Comment	Createdate
e046514.cat	doc		Nov. 11, 2011, 3:48 p.m.
erh046514.in	erhin	Input file for erham including all experimental lines	Nov. 11, 2011, 3:58 p.m.
erh046514.out	erhout	Output file from erham including all predicted transition frequencies. Transitions order by frequency have been generated with the corresponding input file. Output files for frequency ranges in intervals of 200; (0-200, 200-400, ...) have been generated separately. All output - files have been concatenated for this artificial output file.	Nov. 11, 2011, 4:09 p.m.
erh046514_custom.out	erhout	Erham-Output (Custom-Made-Version)	Nov. 17, 2011, 5:21 p.m.
erh046514_modcustom.out	erhout	File generated with a modified Custom Version V17 of erham	Nov. 25, 2011, 6:18 p.m.
c046514.lit	lit	References	Nov. 14, 2011, 6:17 p.m.
c046514.cat	mrg	Predicted transitions with experimental values merged	Dec. 16, 2011, 3:16 p.m.

CDMS

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