SIMBAD references

2018A&A...618A.145O - Astronomy and Astrophysics, volume 618A, 145-145 (2018/1-0)

First hot corino detected around an isolated intermediate-mass protostar: Cep E-mm.

OSPINA-ZAMUDIO J., LEFLOCH B., CECCARELLI C., KAHANE C., FAVRE C., LOPEZ-SEPULCRE A. and MONTARGES M.

Abstract (from CDS):

Context. Intermediate-mass (IM) protostars provide a bridge between the low- and high-mass protostars. Despite their relevance, little is known about their chemical diversity.
Aims. We want to investigate the molecular richness towards the envelope of I-M protostars and to compare their properties with those of low- and high-mass sources.
Methods. We have selected the isolated IM Class 0 protostar Cep E-mm to carry out an unbiased molecular survey with the IRAM 30 m telescope between 72 and 350GHz with an angular resolution lying in the range 7-34". Our goal is to obtain a census of the chemical content of the protostellar envelope. These data were complemented with NOEMA observations of the spectral bands 85.9-89.6GHz and 216.8-220.4GHz at angular resolutions of 2.3" and 1.4", respectively.
Results. The 30 m spectra show bright emission of O- and N-bearing complex organic molecules (COMs): CH3OH and its rare isotopologues CH2DOH and 13CH3OH, CH3CHO, CH3OCH3, CH3COCH3, HCOOH, HCOOCH3, H2CCO, NH2CHO, CH3CN, C2H3CN, C2H5CN, HNCO and H2CO. We identify up to three components in the spectral signature of COMs: an extremely broad line (eBL) component associated with the outflowing gas (FWHM>7km/s), a narrow line (NL) component (FWHM<3km/s) associated with the cold envelope, and a broad line (BL) component (FWHM~=5.5km/s) which traces the signature of a hot corino. The eBL and NL components are detected only in molecular transitions of low excitation and dominate the emission of CH3OH. The BL component is detected in highly excited gas (Eup > 100 K). The NOEMA observations reveal Cep E-mm as a binary protostellar system, whose components, Cep E-A and Cep E-B, are separated by ~=1.7". Cep E-A dominates the core continuum emission and powers the long-studied, well-known, high-velocity jet associated with HH377. The lower flux source Cep E-B powers another high-velocity molecular jet, reaching velocities of ~=80km/s, which propagates in a direction close to perpendicular with respect to the Cep E-A jet. Our interferometric maps show that the emission of COMs arises from a region of ~=0.7"size around Cep E-A, and corresponds to the BL component detected with the IRAM 30 m telescope. On the contrary, no COM emission is detected towards Cep E-B. We have determined the rotational temperature (Trot) and the molecular gas column densities from a simple population diagram analysis or assuming a given excitation temperature. Rotational temperatures of COMs emission were found to lie in the range 20-40K with column densities ranging from a few times 1015cm–2 for O-bearing species, down to a few times 1014cm–2 for N-bearing species. Molecular abundances are similar to those measured towards other low- and intermediate-mass protostars. Ketene (H2CCO) appears as an exception, as it is found significantly more abundant towards Cep E-A. High-mass hot cores are significantly less abundant in methanol and N-bearing species are more abundant by two to three orders of magnitude.
Conclusions. Cep E-mm reveals itself as a binary protostellar system with a strong chemical differentiation between both cores. Only the brightest component of the binary is associated with a hot corino. Its properties are similar to those of low-mass hot corinos.

Abstract Copyright: © ESO 2018

Journal keyword(s): astrochemistry - stars: formation

CDS comments: CepE-A and CepE-B not in SIMBAD.

Simbad objects: 39

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2021.12.03-21:26:26

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