Optical Traces of Two IRAS Sources Driving Bipolar Outflows in the S287 Molecular Cloud

We have made 15″ resolution observations of CO J = 1-0 emission toward L723 and S140 using the Nobeyama 45-m radio telescope. The maps resolved the molecular flow structures clearly. The outflow in the S140 molecular cloud was resolved to be a bipolar structure with its axis being nearly perpendicular to the elongation of the dense core observed in CS emission and to the direction of the infrared polarization. The blueshifted and redshifted components in L723 were resolved into two pairs of bipolar outflows with a point-symmetric structure.

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THE TRANSITION FROM DIFFUSE ATOMIC GAS TO MOLECULAR CLOUD IN TAURUS

Proceedings of the 74th International Symposium on Molecular Spectroscopy ◽

10.15278/isms.2019.wa06 ◽

2019 ◽

Author(s):

Steven Federman ◽

David Lambert ◽

Gregory Mace ◽

Nicolas Flagey ◽

Paul Goldsmith ◽

...

Keyword(s):

Molecular Cloud ◽

Atomic Gas

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SiO Maser Sources toward the Sagittarius B2 Molecular Cloud

The Astrophysical Journal ◽

10.1086/303796 ◽

1997 ◽

Vol 478 (1) ◽

pp. 206-210 ◽

Cited By ~ 21

Author(s):

Shigetomo Shiki ◽

Masatoshi Ohishi ◽

Shuji Deguchi

Keyword(s):

Molecular Cloud ◽

Maser Sources

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A Deep Long‐Slit Spectroscopic Study of the Two Bipolar Outflows from the T Tauri Binary System

The Astrophysical Journal ◽

10.1086/307760 ◽

1999 ◽

Vol 523 (2) ◽

pp. 709-720 ◽

Cited By ~ 34

Author(s):

J. Solf ◽

K.‐H. Bohm

Keyword(s):

Binary System ◽

Spectroscopic Study ◽

Bipolar Outflows ◽

T Tauri

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The Magnetic Field of the NGC 2024 Molecular Cloud

The Astrophysical Journal ◽

10.1086/307026 ◽

1999 ◽

Vol 515 (1) ◽

pp. 275-285 ◽

Cited By ~ 35

Author(s):

R. M. Crutcher ◽

D. A. Roberts ◽

T. H. Troland ◽

W. M. Goss

Keyword(s):

Magnetic Field ◽

Molecular Cloud ◽

The Magnetic Field

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The Perseus B5 Molecular Cloud Halo: Measurements of Pressure, Temperature, and Composition

The Astrophysical Journal ◽

10.1086/306554 ◽

1999 ◽

Vol 510 (1) ◽

pp. 291-304 ◽

Cited By ~ 27

Author(s):

Peter Wannier ◽

B‐G Andersson ◽

Bryan E. Penprase ◽

S. R. Federman

Keyword(s):

Molecular Cloud

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350 Micron Continuum Imaging of the Orion A Molecular Cloud with the Submillimeter High Angular Resolution Camera

The Astrophysical Journal ◽

10.1086/306500 ◽

1998 ◽

Vol 509 (1) ◽

pp. 299-308 ◽

Cited By ~ 120

Author(s):

D. C. Lis ◽

E. Serabyn ◽

Jocelyn Keene ◽

C. D. Dowell ◽

D. J. Benford ◽

...

Keyword(s):

Molecular Cloud ◽

Angular Resolution ◽

High Angular Resolution

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Resolved spectral variations of the centimetre-wavelength continuum from the ρ Oph W photo-dissociation-region

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/staa4016 ◽

2021 ◽

Author(s):

Simon Casassus ◽

Matías Vidal ◽

Carla Arce-Tord ◽

Clive Dickinson ◽

Glenn J White ◽

...

Keyword(s):

Molecular Cloud ◽

Dust Emission ◽

Image Synthesis ◽

Microwave Emission ◽

Radio Continuum ◽

Continuum Emission ◽

Parametric Image ◽

Physical Conditions ◽

Morphological Differences ◽

Dust Grain

Abstract Cm-wavelength radio continuum emission in excess of free-free, synchrotron and Rayleigh-Jeans dust emission (excess microwave emission, EME), and often called ‘anomalous microwave emission’, is bright in molecular cloud regions exposed to UV radiation, i.e. in photo-dissociation regions (PDRs). The EME correlates with IR dust emission on degree angular scales. Resolved observations of well-studied PDRs are needed to compare the spectral variations of the cm-continuum with tracers of physical conditions and of the dust grain population. The EME is particularly bright in the regions of the ρ Ophiuchi molecular cloud (ρ Oph) that surround the earliest type star in the complex, HD 147889, where the peak signal stems from the filament known as the ρ Oph-W PDR. Here we report on ATCA observations of ρ Oph-W that resolve the width of the filament. We recover extended emission using a variant of non-parametric image synthesis performed in the sky plane. The multi-frequency 17 GHz to 39 GHz mosaics reveal spectral variations in the cm-wavelength continuum. At ∼30 arcsec resolutions, the 17-20 GHz intensities follow tightly the mid-IR, Icm∝I(8 μm), despite the breakdown of this correlation on larger scales. However, while the 33-39 GHz filament is parallel to IRAC 8 μm, it is offset by 15–20 arcsec towards the UV source. Such morphological differences in frequency reflect spectral variations, which we quantify spectroscopically as a sharp and steepening high-frequency cutoff, interpreted in terms of the spinning dust emission mechanism as a minimum grain size acutoff ∼ 6 ± 1 Å that increases deeper into the PDR.

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The effect of stellar multiplicity on protoplanetary discs: a near-infrared survey of the Lupus star-forming region

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/staa3674 ◽

2020 ◽

Vol 501 (2) ◽

pp. 2305-2315

Author(s):

Alice Zurlo ◽

Lucas A Cieza ◽

Megan Ansdell ◽

Valentin Christiaens ◽

Sebastián Pérez ◽

...

Keyword(s):

Adaptive Optics ◽

Molecular Cloud ◽

Near Infrared ◽

Main Sequence Stars ◽

Multiple Systems ◽

Star Forming ◽

Very Large Telescope ◽

Pms Stars ◽

First Time ◽

Infrared Survey

ABSTRACT We present results from a near-infrared (NIR) adaptive optics (AO) survey of pre-main-sequence stars in the Lupus molecular cloud with NACO at the Very Large Telescope (VLT) to identify (sub)stellar companions down to ∼20-au separation and investigate the effects of multiplicity on circumstellar disc properties. We observe for the first time in the NIR with AO a total of 47 targets and complement our observations with archival data for another 58 objects previously observed with the same instrument. All 105 targets have millimetre Atacama Large Millimetre/sub-millimetre Array (ALMA) data available, which provide constraints on disc masses and sizes. We identify a total of 13 multiple systems, including 11 doubles and 2 triples. In agreement with previous studies, we find that the most massive (Mdust > 50 M⊕) and largest (Rdust > 70 au) discs are only seen around stars lacking visual companions (with separations of 20–4800 au) and that primaries tend to host more massive discs than secondaries. However, as recently shown in a very similar study of >200 PMS stars in the Ophiuchus molecular cloud, the distributions of disc masses and sizes are similar for single and multiple systems for Mdust < 50 M⊕ and radii Rdust < 70 au. Such discs correspond to ∼80–90 per cent of the sample. This result can be seen in the combined sample of Lupus and Ophiuchus objects, which now includes more than 300 targets with ALMA imaging and NIR AO data, and implies that stellar companions with separations >20 au mostly affect discs in the upper 10${{\ \rm per\ cent}}$ of the disc mass and size distributions.

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Carbon-chain molecules in molecular outflows and Lupus I region – new producing region and new forming mechanism

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/stz1498 ◽

2019 ◽

Vol 488 (1) ◽

pp. 495-511

Author(s):

Yuefang Wu ◽

Xunchuan Liu ◽

Xi Chen ◽

Lianghao Lin ◽

Jinghua Yuan ◽

...

Keyword(s):

Radio Telescope ◽

Molecular Cloud ◽

Carbon Chain ◽

Species Range ◽

Chain Molecules ◽

Forming Mechanism ◽

Molecular Outflows ◽

Chemical Models ◽

Cloud Complex

Abstract Using the new equipment of the Shanghai Tian Ma Radio Telescope, we have searched for carbon-chain molecules (CCMs) towards five outflow sources and six Lupus I starless dust cores, including one region known to be characterized by warm carbon-chain chemistry (WCCC), Lupus I-1 (IRAS 15398-3359), and one TMC-1 like cloud, Lupus I-6 (Lupus-1A). Lines of HC3N J = 2 − 1, HC5N J = 6 − 5, HC7N J = 14 − 13, 15 − 14, 16 − 15, and C3S J = 3 − 2 were detected in all the targets except in the outflow source L1660 and the starless dust core Lupus I-3/4. The column densities of nitrogen-bearing species range from 1012 to 1014 cm−2 and those of C3S are about 1012 cm−2. Two outflow sources, I20582+7724 and L1221, could be identified as new carbon-chain-producing regions. Four of the Lupus I dust cores are newly identified as early quiescent and dark carbon-chain-producing regions similar to Lup I-6, which together with the WCCC source, Lup I-1, indicate that carbon-chain-producing regions are popular in Lupus I which can be regard as a Taurus-like molecular cloud complex in our Galaxy. The column densities of C3S are larger than those of HC7N in the three outflow sources I20582, L1221, and L1251A. Shocked carbon-chain chemistry is proposed to explain the abnormal high abundances of C3S compared with those of nitrogen-bearing CCMs. Gas-grain chemical models support the idea that shocks can fuel the environment of those sources with enough S+ thus driving the generation of S-bearing CCMs.

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