First Results of an ALMA Band 10 Spectral Line Survey of NGC 6334I: Detections of Glycolaldehyde (HC(O)CH<sub>2</sub>OH) and a New Compact Bipolar Outflow in HDO and CS

McGuire, Brett A.; Brogan, C. L.; Hunter, T. R.; Remijan, Anthony J.; Blake, Geoffrey A.; Burkhardt, Andrew M.; Carroll, P. Brandon; Dishoeck, E. F. van; Garrod, R. T.; Linnartz, H.; Shingledecker, Christopher N.; Willis, Eric R.

doi:10.3847/2041-8213/aad7bb

Cited by 36 publications

(58 citation statements)

References 37 publications

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“…The data have been analyzed with the Common Astronomy Software Applications (CASA) package (McMullin et al 2007). The relatively line-free continuum channels were selected with the techniques described in Brogan et al (2018) and used to subtract the continuum emission in the UV-plane. The Briggs weighting scheme and a Robust parameter of 0.5 for the Band 4 and 6 data and 0.0 for the Band 7 data were used in the TCLEAN task of CASA for imaging, which resulted in elliptical beam shapes.…”

Section: Observationsmentioning

confidence: 99%

“…As n H 2 ≫ n crit , it is reasonable to assume that these CH 3 COOH transitions are thermalized toward MM1. Following the convention of Turner (1991), we simulated the spectrum of CH 3 COOH in each state with the assumption that the transitions of CH 3 COOH are thermalized, as in McGuire et al (2018). Constant background continuum temperature (T bg ) is considered in each frequency range covered by the datasets.…”

Section: Line Identificationmentioning

confidence: 99%

“…The millimeter continuum emission maps have spatially resolved NGC 6334I into nine distinct sources, with most of the hot core molecular line emission originating from the two brightest continuum sources, MM1 and MM2 (Hunter et al 2006;Brogan et al 2016). MM1 is furthered characterized as a hot multi-core which comprises seven components and exhibits a high-velocity bipolar outflow (Brogan et al 2016(Brogan et al , 2018. NGC 6334I is complex not only in physical structure but also in chemical composition (Bøgelund et al 2018).…”

Section: Introductionmentioning

confidence: 99%

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ALMA Detection of Vibrationally Excited (v_t = 1, 2) Acetic Acid toward NGC 6334I

Xue

Remijan

Brogan

et al. 2019

ApJ

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Vibrationally excited states of detected interstellar molecules have been shown to account for a large portion of unidentified spectral lines in observed interstellar spectra toward chemically rich sources. Here, we present the first interstellar detection of the first and second vibrationally excited torsional states of acetic acid (v t = 1, 2) toward the high-mass star-forming region NGC 6334I. The observations presented were taken with the Atacama Large Millimeter/submillimeter Array in bands 4, 6, and 7 covering a frequency range of 130 -352 GHz. By comparing a single excitation temperature model to the observations, the best-fit excitation temperature and column density are obtained to be 142(25) K and 1.12(7) × 10 17 cm −2 respectively. Based on the intensity maps of the vibrationally excited CH 3 COOH transitions, we found that the CH 3 COOH emissions are compact and concentrated toward the MM1 and MM2 regions with a source size smaller than 2 ′′ . After locating the emission from different CH 3 COOH transitions, which cover a large range of excitation energies, we are able to explain the variation of the CH 3 COOH emission peak within the MM2 core by invoking continuum absorption or outflows.

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Section: Observationsmentioning

confidence: 99%

Section: Line Identificationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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ALMA Detection of Vibrationally Excited (v_t = 1, 2) Acetic Acid toward NGC 6334I

Xue

Remijan

Brogan

et al. 2019

ApJ

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“…The presence of chloromethane in environments other than our Solar system has been recently identified at a pre-planetary stage, thanks to the observation of CH 3 Cl emission towards the low-mass protostar IRAS 16293-2422 with the Atacama Large Millimeter/submillimeter Array (ALMA) [8]. In particular, this detection relied on the observation at submillimeter-wavelengths of some J = 13 ← 12 rotational transitions of the two stable chlorine isotopologues, CH 3 35 Cl and CH 3 37 Cl. The protostar IRAS 16293-2422 is also a rich source of interstellar deuterated species [9].…”

Section: Introductionmentioning

confidence: 99%

“…[14,15] and references therein). Extended line lists [16] and molecular database [17] are available for both the CH 3 35 Cl and CH 3 37 Cl species. Also the rare 13 C isotopologues have been spectroscopically characterized widely, from the millimeter-wave to the infrared domains (see, e.g., Refs.…”

Section: Introductionmentioning

confidence: 99%

High-resolution millimeter-wave spectroscopy of CH2DCl: Paving the way for future astronomical observations of chloromethane isotopologues

Melosso

Achilli

Tamassia

et al. 2020

Journal of Quantitative Spectroscopy and Radiative Transfer

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Chloromethane is the only organochloride detected in space to date. Its recent observation towards the low-mass protostar IRAS 16293-2422 with ALMA offers a prompt for new laboratory studies of CH 3 Cl and its isotopologues. Here, we report the investigation of the rotational spectrum of monodeuterated chloromethane CH 2 DCl in the frequency region between 90 and 300 GHz. The measurements have been carried out with a frequency-modulation millimeterwave spectrometer, arranged to perform saturation spectroscopy. From the analysis of hyperfine-resolved spectra of the two chlorine isotopologues CH 2 D 35 Cl and CH 2 D 37 Cl, consistent sets of accurate spectroscopic parameters have been obtained. This work provides reliable spectral predictions which can be used to guide radio-astronomical searches of CH 2 DCl in the interstellar medium and represents a solid base for future analyses of high-resolution infrared spectra of monodeuterated chloromethane.

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Laboratory astrophysics: Key to understanding the Universe

Dishoeck

2019

Proc. IAU

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This brief overview stresses the importance of laboratory data and theory in analyzing astronomical observations and understanding the physical and chemical processes that drive the astrophysical phenomena in our Universe. This includes basic atomic and molecular data such as spectroscopy and collisional rate coefficients, but also an improved understanding of nuclear, plasma and particle physics, as well as reactions and photoprocesses in the gaseous and solid state that lead to chemical complexity and building blocks for life. Systematic laboratory collision experiments have provided detailed insight into the steps that produce pebbles, bricks and ultimately planetesimals starting from sub-μ-sized grains. Sample return missions and meteoritic studies benefit from increasingly sophisticated laboratory machines to analyze materials and provide compositional images on nanometer scales. Prioritization of future data requirements will be needed to cope with the increasing data streams from a diverse range of future astronomical facilities within a constrained laboratory astrophysics budget.

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First Results of an ALMA Band 10 Spectral Line Survey of NGC 6334I: Detections of Glycolaldehyde (HC(O)CH₂OH) and a New Compact Bipolar Outflow in HDO and CS

Cited by 36 publications

References 37 publications

ALMA Detection of Vibrationally Excited (v_t = 1, 2) Acetic Acid toward NGC 6334I

ALMA Detection of Vibrationally Excited (v_t = 1, 2) Acetic Acid toward NGC 6334I

High-resolution millimeter-wave spectroscopy of CH2DCl: Paving the way for future astronomical observations of chloromethane isotopologues

Laboratory astrophysics: Key to understanding the Universe

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First Results of an ALMA Band 10 Spectral Line Survey of NGC 6334I: Detections of Glycolaldehyde (HC(O)CH2OH) and a New Compact Bipolar Outflow in HDO and CS

Cited by 36 publications

References 37 publications

ALMA Detection of Vibrationally Excited (vt = 1, 2) Acetic Acid toward NGC 6334I

ALMA Detection of Vibrationally Excited (vt = 1, 2) Acetic Acid toward NGC 6334I

High-resolution millimeter-wave spectroscopy of CH2DCl: Paving the way for future astronomical observations of chloromethane isotopologues

Laboratory astrophysics: Key to understanding the Universe

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First Results of an ALMA Band 10 Spectral Line Survey of NGC 6334I: Detections of Glycolaldehyde (HC(O)CH₂OH) and a New Compact Bipolar Outflow in HDO and CS

ALMA Detection of Vibrationally Excited (v_t = 1, 2) Acetic Acid toward NGC 6334I

ALMA Detection of Vibrationally Excited (v_t = 1, 2) Acetic Acid toward NGC 6334I