Vibrational satellites of C2S, C3S, and C4S: microwave spectral taxonomy as a stepping stone to the millimeter-wave band

McGuire, Brett A.; Martin‐Drumel, Marie‐Aline; Lee, Kelvin; Stanton, John F.; Gottlieb, C. A.; McCarthy, Michael

doi:10.1039/c8cp01102h

Cited by 19 publications

(17 citation statements)

References 74 publications

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“…Emphasizing that most stable isomers of carbon‐based chains of the type considered in our paper are not invariably singlets is important because this was incorrectly claimed in some recent studies done in the astronomical/astrophysical community . Prior to the present extensive study, a series of authors drew attention on the fact that triplet isomers of carbon‐based chains are more stable than singlet isomers: HC

_{2 k^{+} 1}

H, C 2 k , HC 4 N, NC 5 N, C 2 k O, C 2, 4 S, and HC 6 N …”

Section: Resultsmentioning

confidence: 88%

Alternation of Singlet and Triplet States in Carbon‐Based Chain Molecules and Its Astrochemical Implications: Results of an Extensive Theoretical Study

Bâldea

2019

Advcd Theory and Sims

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A variety of homologous carbon chains (HC n H, HC n N, C n S, C n O, and OC n O) are found to exhibit an appealing even-odd effect. Chains containing a number of carbon atoms of a certain parity possess singlet ground states, while members of opposite parity have triplet ground states. From a general perspective, it is important that this even-odd effect confounds straightforward chemical intuition. Whether the most stable form is a triplet or a singlet is neither simply related to the fact that the species in question is a "normal" (closed-shell, nonradical) molecule nor a (di)radical or to the (e.g., cumulene-type) C─C bond succession across the chain. From a computational perspective, the present results are important also because they demonstrate that electron correlations in carbon-based chains are extremely strong. Whether the "gold-standard" CCSD(T) (coupled-cluster expansions with single and double excitations and triple excitations corrections) framework suffices to describe such strongly correlated systems remains an open question that calls for further clarification. Most importantly for astrochemistry, the present results may explain why certain members are not astronomically observed although larger members of the same homologous series are detected; the missing species are exactly those for which the present calculations predict triplet ground states.

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_{2 k^{+} 1}

H, C 2 k , HC 4 N, NC 5 N, C 2 k O, C 2, 4 S, and HC 6 N …”

Section: Resultsmentioning

confidence: 88%

Alternation of Singlet and Triplet States in Carbon‐Based Chain Molecules and Its Astrochemical Implications: Results of an Extensive Theoretical Study

Bâldea

2019

Advcd Theory and Sims

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“…Precise rest frequencies have also been reported for a number of the more abundant isotopic species at millimeter-wave and submillimeter-wave wavelengths 19. For SiO18,22 and to a lesser extent CS,23,24 the same is true, however, the laboratory measurements for SiC are significantly more limited, although the pure rotational transitions from the 3 Π ground state and v = 1 have been observed in the millimeter-wave band, as has lines of ground state 29 SiC and Si 13 C 25. Those up to v = 5 for normal SiC were derived at somewhat lower resolution by Butenhoff and Rohlfing26 by laser-induced fluorescence excitation spectroscopy, but very little high-resolution spectroscopy of this radical has been reported since the early 1990s.…”

Section: Interferometric Spectral Line Surveys: Evidence For a Rich Imentioning

confidence: 85%

Building Blocks of Dust and Large Organic Molecules: A Coordinated Laboratory and Astronomical Study of Agb Stars

McCarthy¹,

Gottlieb²,

Cernicharo³

2017

Proceedings of the 72nd International Symposium on Molecular Spectroscopy

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This article provides an overview of recent astronomical studies and a closely coordinated laboratory program devoted to the study of the physics and chemistry of carbon rich Asymptotic Giant Branch (AGB) stars. The increased sensitivity and angular resolution of high altitude ground-based millimeter-wave interferometers in the past few years has enabled molecular astronomers to determine the excitation and spatial distribution of molecules within a few stellar radii of the central star where the molecular seeds of dust are formed, and to critically assess the physicochemical mechanisms of dust formation and growth. However the astronomical studies are crucially dependent on precise laboratory measurements of the rotational spectra — both in the ground and vibrationally excited states of the normal and rare isotopic species — of the principal molecules in the inner region which appear to contain only two or three heavy atoms Much remains to be done by laboratory spectroscopists as evidenced by the large number of unassigned millimeters-wave rotational lines that are observed in the inner envelope of carbon rich AGB stars. As an illustration we refer to the example of an initial laboratory approach for establishing whether vibrationally excited SiC2 and HCN are the carriers of some of the unassigned features observed in the prototypical carbon rich AGB star IRC+10216 with ALMA. Also highlighted are ongoing laboratory studies of the silicon carbides SiC2 and SiCSi in their ground and excited vibrational states, and SiC3 in the ground vibrational state. Following the initial detection of SiC3 and SiCSi in the outer molecular envelope of IRC+10216, the laboratory spectroscopy was extended to higher frequency in support of the recent interferometric measurements. Thirty-two new millimeter-wave rotational transitions of SiCSi with J ≤ 48, Ka ≤ 3 and upper level energies Eu ≤ 484 K in the range from 178 – 391 GHz, and 35 new transitions of SiC3 with J ≤ 38, Ka ≤ 20 and Eu ≤ 875 K between 315 and 440 GHz were measured in the laboratory. In addition five to six rotational transitions in one quanta of each of the three fundamental vibrational modes of SiCSi, and the two lowest rotational transitions in the previously unexplored C–C stretching mode (ν1) of SiCC were measured in the normal and doubly substituted 13C isotopic species.

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“…Chirped-pulse Fourier-transform microwave (CP-FTMW) spectroscopy 35 followed by its cavity variant 36 were used to de- tect and analyze products formed in the laser ablation of a Ge:C rod. The combined approach of CP-and cavity FT spectroscopy has recently been used with good success to detect entirely new molecules, 37 such as HC 4 C(O)H, 38 GeC 2 , 19 and new vibrationally excited states of highly abundant species, such as C 2 S and C 3 S. 39 A real strength of this approach is that it exploits the advantages of both spectroscopies, in which the CP spectrum is used as a survey tool to detect "bright" resolution elements over a very wide frequency range, and cavity spectroscopy can then be efficiently used to rapidly analyze and characterize these smaller number of spectral features, owing to its higher instantaneous sensitivity and spectral resolution.…”

Section: Experimental Methodsmentioning

confidence: 99%

Generation and structural characterization of Ge carbides GeC_n (n = 4, 5, 6) by laser ablation, broadband rotational spectroscopy, and quantum chemistry

Lee

Thorwirth

Martin‐Drumel

et al. 2019

Phys. Chem. Chem. Phys.

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Vibrational satellites of C₂S, C₃S, and C₄S: microwave spectral taxonomy as a stepping stone to the millimeter-wave band

Cited by 19 publications

References 74 publications

Alternation of Singlet and Triplet States in Carbon‐Based Chain Molecules and Its Astrochemical Implications: Results of an Extensive Theoretical Study

Alternation of Singlet and Triplet States in Carbon‐Based Chain Molecules and Its Astrochemical Implications: Results of an Extensive Theoretical Study

Building Blocks of Dust and Large Organic Molecules: A Coordinated Laboratory and Astronomical Study of Agb Stars

Generation and structural characterization of Ge carbides GeC_n (n = 4, 5, 6) by laser ablation, broadband rotational spectroscopy, and quantum chemistry

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Vibrational satellites of C2S, C3S, and C4S: microwave spectral taxonomy as a stepping stone to the millimeter-wave band

Cited by 19 publications

References 74 publications

Alternation of Singlet and Triplet States in Carbon‐Based Chain Molecules and Its Astrochemical Implications: Results of an Extensive Theoretical Study

Alternation of Singlet and Triplet States in Carbon‐Based Chain Molecules and Its Astrochemical Implications: Results of an Extensive Theoretical Study

Building Blocks of Dust and Large Organic Molecules: A Coordinated Laboratory and Astronomical Study of Agb Stars

Generation and structural characterization of Ge carbides GeCn (n = 4, 5, 6) by laser ablation, broadband rotational spectroscopy, and quantum chemistry

Contact Info

Product

Resources

About

Vibrational satellites of C₂S, C₃S, and C₄S: microwave spectral taxonomy as a stepping stone to the millimeter-wave band

Generation and structural characterization of Ge carbides GeC_n (n = 4, 5, 6) by laser ablation, broadband rotational spectroscopy, and quantum chemistry