28SiOv= 0J= 1–0 emission from evolved stars

Vicente, P. de; Bujarrabal, V.; Diaz-Pulido, A.; Albo, C.; Barcia, A.; Barbas, L.; Bolaño, R.; Colomer, F.; Diez, M.C.; Gallego, J. D.; Gómez-González, J.; López-Fernández, I.; López-Fernández, Jesús A.; López-Pérez, J. A.; Malo, I.; Moreno, A.; Patiño, Miguel Ángel Parra; Serna, J. M.; Tercero, F.; Vaquero, B.

doi:10.1051/0004-6361/201527174

Cited by 30 publications

(35 citation statements)

References 21 publications

(28 reference statements)

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“…The data presented here are part of a deep spectral line survey in the Q band towards TMC-1 that was performed at the Yebes 40 m radio telescope 1 (de Vicente et al 2016), located at an altitude of 990 m near Guadalajara (Spain). The observed position corresponds to the cyanopolyyne peak (CP) in TMC-1, at α J2000 = 4 h 41 m 41.9 s and δ J2000 = +25 • 41 27.0 .…”

Section: Observationsmentioning

confidence: 99%

A study of C₄H₃N isomers in TMC-1: Line by line detection of HCCCH₂CN

Marcelino

Tercero

Agúndez

et al. 2021

A&A

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We present Yebes 40 m telescope observations of the three most stable C4H3N isomers towards the cyanopolyyne peak of TMC-1. We have detected 13 transitions from CH3C3N (A and E species), 16 lines from CH2CCHCN, and 27 lines (a-type and b-type) from HCCCH2CN. We thus provide a robust confirmation of the detection of HCCCH2CN and CH2CCHCN in space. We have constructed rotational diagrams for the three species and obtained rotational temperatures between 4 and 8 K as well as similar column densities for the three isomers, in the range (1.5−3) × 1012 cm−2. Our chemical model provides abundances of the order of the observed ones, although it overestimates the abundance of CH3CCCN and underestimates that of HCCCH2CN. The similarity of the observed abundances of the three isomers suggests a common origin, most probably involving reactions of the radical CN with the unsaturated hydrocarbons methyl acetylene and allene. Studies of reaction kinetics at low temperatures and further observations of these molecules in different astronomical sources are needed to draw a clear picture of the chemistry of C4H3N isomers in space.

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Section: Observationsmentioning

confidence: 99%

A study of C₄H₃N isomers in TMC-1: Line by line detection of HCCCH₂CN

Marcelino

Tercero

Agúndez

et al. 2021

A&A

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“…GHz with the 11 m Kitt Peak telescope toward Sgr B2(OH). 13 de Vicente et al 47 presented observational results of 28 SiO v 1 =0, j Since silicon is depleted onto grains, it is not detected in protoplanetary disks, though CO is. It is proposed, 52 however, that in the outflows of young stellar objects (YSOs), that the grains are disrupted, allowing for the formation of SiO.…”

Section: Astrophysical Applicationsmentioning

confidence: 99%

Full-Dimensional Quantum Dynamics of SiO in Collision with H₂

Yang

Zhang

et al. 2018

J. Phys. Chem. A

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We report the first full-dimensional potential energy surface (PES) and quantum mechanical close-coupling calculations for scattering of SiO due to H 2 . The fulldimensional interaction potential surface was computed using the explicitly correlated coupled-cluster (CCSD(T)-F12b) method and fitted using an invariant polynomial approach. Pure rotational quenching cross sections from initial states v 1 = 0, j 1 =1-5 of SiO in collision with H 2 are calculated for collision energies between 1.0 and 5000 cm −1 . State-to-state rotational rate coefficients are calculated at temperatures between 1 arXiv:1802.04702v1 [physics.chem-ph] 25 Jan 2018 5 and 1000 K. The rotational rate coefficients of SiO with para-H 2 are compared with previous approximate results which were obtained using SiO-He PESs or scaled from SiO-He rate coefficients. Rovibrational state-to-state and total quenching cross sections and rate coefficients for initially excited SiO(v 1 = 1, j 1 =0 and 1) in collisions with para-H 2 (v 2 = 0, j 2 = 0) and ortho-H 2 (v 2 = 0, j 2 = 1) were also obtained. The application of the current collisional rate coefficients to astrophysics is briefly discussed.

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“…Maser emission is used to study the dense regions surrounding evolved stars. Using the Yebes radio telescope, single-dish monitoring of the 43 GHz SiO emission from evolved stars suggests that the emission comes from the innermost circumstellar layers [43]. More VLBI observations would be helpful to clarify details, however, these are challenging due to a large amount of flux density being resolved out [9].…”

Section: Masers In Evolved Starsmentioning

confidence: 99%

Studies of stellar evolution using masers

Bartkiewicz¹

2019

Proceedings of 14th European VLBI Network Symposium &Amp; Users Meeting — PoS(EVN2018)

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²⁸SiOv= 0J= 1–0 emission from evolved stars

Cited by 30 publications

References 21 publications

A study of C₄H₃N isomers in TMC-1: Line by line detection of HCCCH₂CN

A study of C₄H₃N isomers in TMC-1: Line by line detection of HCCCH₂CN

Full-Dimensional Quantum Dynamics of SiO in Collision with H₂

Studies of stellar evolution using masers

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28SiOv= 0J= 1–0 emission from evolved stars

Cited by 30 publications

References 21 publications

A study of C4H3N isomers in TMC-1: Line by line detection of HCCCH2CN

A study of C4H3N isomers in TMC-1: Line by line detection of HCCCH2CN

Full-Dimensional Quantum Dynamics of SiO in Collision with H2

Studies of stellar evolution using masers

Contact Info

Product

Resources

About

²⁸SiOv= 0J= 1–0 emission from evolved stars

A study of C₄H₃N isomers in TMC-1: Line by line detection of HCCCH₂CN

A study of C₄H₃N isomers in TMC-1: Line by line detection of HCCCH₂CN

Full-Dimensional Quantum Dynamics of SiO in Collision with H₂