S. F. Dyubko scite author profile

In 2003, Kuan and coworkers reported the detection of interstellar glycine (NH 2 CH 2 COOH ) based on observations of 27 lines in 19 different spectral bands in one or more of the sources Sgr B2(N-LMH ), Orion KL, and W51 e1/e2. They supported their detection report with rotational temperature diagrams for all three sources. In this paper we present essential criteria that can be used in a straightforward analysis technique to confirm the identity of an interstellar asymmetric rotor such as glycine. We use new laboratory measurements of glycine as a basis for applying this analysis technique, both to our previously unpublished 12 m telescope data and to the previously published Swedish-ESO Submillimetre Telescope (SEST) data of Nummelin and colleagues. We conclude that key lines necessary for an interstellar glycine identification have not yet been found. We identify some common molecular candidates that should be examined further as more likely carriers of several of the lines reported as glycine. Finally, we illustrate that a rotational temperature diagram used without the support of correct spectroscopic assignments is not a reliable tool for the identification of interstellar molecules.

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Ground and first excited torsional states of acetamide

Ilyushin

Alekseev

Dyubko

et al. 2004

Journal of Molecular Spectroscopy

100

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Microwave Spectroscopy of Vinyl Cyanide, Taking into Account the Hyperfine Structure

Баскаков¹,

Dyubko²,

Ilyushin³

et al. 1996

Journal of Molecular Spectroscopy

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OBSERVATIONAL RESULTS OF A MULTI-TELESCOPE CAMPAIGN IN SEARCH OF INTERSTELLAR UREA [(NH₂)₂CO]

Remijan

Snyder

McGuire

et al. 2014

ApJ

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In this paper, we present the results of an observational search for gas phase urea [(NH 2 ) 2 CO] observed towards the Sgr B2(N-LMH) region. We show data covering urea transitions from ∼100 GHz to 250 GHz from five different observational facilities: BIMA, CARMA, the NRAO 12 m telescope, the IRAM 30 m telescope, and SEST. The results show that the features ascribed to urea can be reproduced across the entire observed bandwidth and all facilities by best fit column density, temperature, and source size parameters which vary by less than a factor of 2 between observations merely by adjusting for telescope-specific parameters. Interferometric observations show that the emission arising from these transitions is cospatial and compact, consistent with the derived source sizes and emission from a single species. Despite this evidence, the spectral complexity, both of (NH 2 ) 2 CO and of Sgr B2(N), makes the definitive identification of this molecule challenging. We present observational spectra, laboratory data, and models, and discuss our results in the context of a possible molecular detection of urea.

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S. F. Dyubko

A Rigorous Attempt to Verify Interstellar Glycine

Ground and first excited torsional states of acetamide

Microwave Spectroscopy of Vinyl Cyanide, Taking into Account the Hyperfine Structure

OBSERVATIONAL RESULTS OF A MULTI-TELESCOPE CAMPAIGN IN SEARCH OF INTERSTELLAR UREA [(NH₂)₂CO]

Contact Info

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About

S. F. Dyubko

A Rigorous Attempt to Verify Interstellar Glycine

Ground and first excited torsional states of acetamide

Microwave Spectroscopy of Vinyl Cyanide, Taking into Account the Hyperfine Structure

OBSERVATIONAL RESULTS OF A MULTI-TELESCOPE CAMPAIGN IN SEARCH OF INTERSTELLAR UREA [(NH2)2CO]

Contact Info

Product

Resources

About

OBSERVATIONAL RESULTS OF A MULTI-TELESCOPE CAMPAIGN IN SEARCH OF INTERSTELLAR UREA [(NH₂)₂CO]