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1. The rich interstellar reservoir of dinitriles: Detection of malononitrile and maleonitrile in TMC-1

Author

Agundez, M., Bermudez, C., Cabezas, C., Molpeceres, G., Endo, Y., Marcelino, N., Tercero, B., Guillemin, J. -C., de Vicente, P., and Cernicharo, J.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

While the nitrile group is by far the most prevalent one among interstellar molecules, the existence of interstellar dinitriles (molecules containing two -CN groups) has recently been proven. Here we report the discovery of two new dinitriles in the cold dense cloud TMC-1. These newly identified species are malononitrile, CH2(CN)2, and maleonitrile, the Z isomer of NC-CH=CH-CN, which can be seen as the result of substituting two H atoms with two -CN groups in methane and ethylene, respectively. These two molecules were detected using data from the ongoing QUIJOTE line survey of TMC-1 that is being carried out with the Yebes 40m telescope. We derive column densities of 1.8e11 cm-2 and 5.1e10 cm-2 for malononitrile and maleonitrile, respectively. This means that they are eight and three times less abundant than HCC-CH2-CN and (E)-HCC-CH=CH-CN, respectively, which are analog molecules detected in TMC-1 in which one -CN group is converted into a -CCH group. This is in line with previous findings in which -CCH derivatives are more abundant than the -CN counterparts in TMC-1. We examined the potential chemical pathways to these two dinitriles, and we find that while maleonitrile can be efficiently formed through the reaction of CN with CH2CHCN, the formation of malononitrile is not clear because the neutral-neutral reactions that could potentially form it are not feasible under the physical conditions of TMC-1., Comment: Accepted for publication in A&A Letters

Published
2024

2. The rotation-tunneling spectrum of 3-hydroxypropenal and confirmation of its detection toward IRAS 16293$-$2422 B

Author

Müller, H. S. P., Coutens, A., Jørgensen, J. K., Margulès, L., Motiyenko, R. A., and Guillemin, J. -C.

Subjects
Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics, Physics - Chemical Physics
Abstract

3-Hydroxypropenal (HOCHCHCHO) is the lower energy tautomer of malonaldehyde which displays a complex rotation-tunneling spectrum. It was detected tentatively toward the solar-type protostar IRAS 16293$-$2422 B with ALMA in the framework of the Protostellar Interferometric Line Survey (PILS). Several transitions, however, had large residuals, preventing not only their detection, but also the excitation temperature of the species from being determined unambiguously. We want to extend the existing rotational line list of 3-hydroxypropenal to shed more light on the recent observational results and to facilitate additional radio astronomical searches for this molecule. We analyzed the rotation-tunneling spectrum of 3-hydroxypropenal in the frequency regions between 150 and 330 GHz and between 400 and 660 GHz. Transitions were searched for in the PILS observations of IRAS 16293$-$2422. Local thermodynamic equilibrium (LTE) models were carried out and compared to the observations to constrain the excitation temperature. Additional transitions were searched for in other ALMA archival data of the same source to confirm the presence of 3-hydroxypropenal. More than 11500 transitions were assigned in the course of our investigation with quantum numbers $2 \le J \le 100$, $K_a \le 59$, and $K_c \le 97$, resulting in a greatly improved set of spectroscopic parameters. The comparison between the LTE models and the observations yields an excitation temperature of 125 K with a column density $N = 1.0 \times 10^{15}$ cm$^{-2}$ for this species. We identified seven additional lines of 3-hydroxypropenal that show a good agreement with the model in the ALMA archive data. The calculated rotation-tunneling spectrum of 3-hydroxypropenal has sufficient accuracy for radio astronomical searches. The detection of 3-hydroxypropenal toward IRAS 16293$-$2422 B is now secure., Comment: 11 pages with figures, tables, and references. Abstract here slightly abbreviated. Accepted at Astron. Astrophys

Published
2024
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3. A high-resolution spectroscopic analysis of aminoacrylonitrile and an interstellar search towards G+0.693

Author

Alberton, D., Lattanzi, V., Endres, C., Rivilla, V. M., Guillemin, J. C., Caselli, P., Jiménez-Serra, I., and Martín-Pintado, J.

Subjects
Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics
Abstract

Cyanides, ranging from three carbon atoms to PAHs, and alkenyl compounds are abundant in the interstellar medium (ISM). Aminoacrylonitrile (3-Amino-2-propenenitrile, H$_{2}$N-CH=CH-CN), an alkenyl cyanide, thus represents a promising candidate for new interstellar detection. A comprehensive spectroscopic laboratory investigation of aminoacrylonitrile in its rotational ground vibrational state has been herein performed. The measurements carried out up to the THz regime made it possible to generate a precise set of reliable rest frequencies for its search in space up to sub-millimetre wavelengths. The $Z$-aminoacrylonitrile ($Z$-apn) isomer spectrum has been recorded employing a source-modulated sub-millimetre spectrometer, from 80 GHz to 1 THz. A combination of Doppler and sub-Doppler measurement regimes allowed to record 600 new lines. The collected data have enabled the characterisation of a set of spectroscopic parameters up to decic centrifugal distortion constants. The catalogue generated from the improved spectral data has been used for the search of $Z$-apn in the spectral survey of the G+0.693-0.027 molecular cloud located in the central molecular zone, in the proximity of the Galactic centre.

Published
2023
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4. Discovery of CH3CHCO in TMC-1 with the QUIJOTE line survey

Author

Fuentetaja, R., Bermúdez, C ., Cabezas, C., Agúndez, M., Tercero, B., Marcelino, N., Pardo, J. R., Margulès, L., Motiyenko, R. A., Guillemin, J. -C., de Vicente, P., and Cernicharo, J.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We report the detection of methyl ketene towards TMC-1 with the QUIJOTE line survey. Nineteen rotational transitions with rotational quantum numbers ranging from J = 3 up to J = 5 and Ka =< 2 were identified in the frequency range 32.0-50.4 GHz, 11 of which arise above the 3{\sigma} level. We derived a column density for CH3CHCO of N=1.5x10^11 cm-2 and a rotational temperature of 9 K. Hence, the abundance ratio between ketene and methyl ketene, CH2CO/CH3CHCO, is 93. This species is the second C3H4O isomer detected. The other, trans-propenal (CH2CHCHO), corresponds to the most stable isomer and has a column density of N=(2.2+-0.3)x10^11 cm-2, which results in an abundance ratio CH2CHCHO/CH3CHCO of 1.5. The next non-detected isomer with the lowest energy is cis-propenal, which is therefore a good candidate for future discovery. We have carried out an in-depth study of the possible gas-phase chemical reactions involving methyl ketene to explain the abundance detected, achieving good agreement between chemical models and observations.

Published
2023
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5. Millimeter wave spectrum and search for vinyl isocyanate toward Sgr B2(N) with ALMA

Author

Vávra, K., Kolesniková, L., Belloche, A., Garrod, R. T., Koucký, J., Uhlíková, T., Luková, K., Guillemin, J. -C., Kania, P., Müller, H. S. P., Menten, K. M., and Urban, Š.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

The interstellar detections of isocyanic acid, methyl isocyanate, and very recently also ethyl isocyanate, open the question of the possible detection of vinyl isocyanate in the interstellar medium. The aim of this study is to extend the laboratory rotational spectrum of vinyl isocyanate into the millimeter wave region and to undertake a check for its presence in the high-mass star forming region Sgr B2. The rotational spectrum of vinyl isocyanate was recorded in the frequency regions 127.5-218 and 285-330 GHz using the Prague millimeter wave spectrometer. The spectral analysis was supported by high-level quantum-chemical calculations. We assumed local thermodynamic equilibrium to compute synthetic spectra of vinyl isocyanate and to search for it in the ReMoCA survey performed with ALMA toward Sgr B2(N). We also searched for ethyl isocyanate in the same source. Accurate values for the rotational and centrifugal distortion constants are reported for the ground vibrational states of trans and cis vinyl isocyanate. We report nondetections of vinyl and ethyl isocyanate toward the main hot core of Sgr B2(N). We find that vinyl and ethyl isocyanate are at least 11 and 3 times less abundant than methyl isocyanate in this source, respectively. Although the precise formation mechanism of interstellar methyl isocyanate itself remains uncertain, we infer from existing astrochemical models that our observational upper limit for the CH3NCO:C2H5NCO ratio in Sgr B2(N) is consistent with ethyl isocyanate being formed on dust grains via the abstraction or photodissociation of an H atom from methyl isocyanate, followed by the addition of a methyl radical. The dominance of such a process for ethyl isocyanate production, combined with the absence of an analogous mechanism for vinyl isocyanate, would indicate that the ratio C2H3NCO:C2H5NCO should be rather less than unity., Comment: Accepted for publication in A&A

Published
2022
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7. Millimetre-wave laboratory study of glycinamide and search for it with ALMA toward Sagittarius B2(N)

Author

Kisiel, Z., Kolesniková, L., Belloche, A., Guillemin, J. -C., Pszczółkowski, L., Alonso, E. R., Garrod, R. T., Białkowska-Jaworska, E., León, I., Müller, H. S. P., Menten, K. M., and Alonso, J. L.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Glycinamide is considered to be one of the possible precursors of the simplest amino acid glycine. Its only rotational spectrum reported so far has been in the cm-wave region. The aim of this work is to extend its laboratory spectrum into the mm wave region to support its searches in the ISM. Glycinamide was synthesised chemically and was studied with broadband rotational spectroscopy in the 90-329 GHz region. Tunneling across a low energy barrier between two symmetry equivalent configurations of the molecule resulted in splitting of each vibrational state and many perturbations in associated rotational energy levels, requiring careful coupled state fits for each vibrational doublet. We searched for emission of glycinamide in the imaging spectral line survey ReMoCA performed with ALMA toward Sgr B2(N). We report the first analysis of the mm-wave rotational spectrum of glycinamide, resulting in fitting to experimental measurement accuracy of over 1200 transition frequencies for the ground state tunneling doublet, of many lines for tunneling doublets for two singly excited vibrational states, and determination of precise vibrational separation in each doublet. We did not detect emission from glycinamide in the hot core Sgr B2(N1S). We found that glycinamide is at least seven times less abundant than aminoacetonitrile and 1.8 times less abundant than urea in this source. A comparison with results of astrochemical kinetics models for species related to glycinamide suggests that its abundance may be at least one order of magnitude below the upper limit obtained toward Sgr B2(N1S). This means that glycinamide emission in this source likely lies well below the spectral confusion limit in the frequency range covered by the ReMoCA survey. Targetting sources with a lower level of spectral confusion, such as the Galactic Center shocked region G+0.693-0.027, may be a promising avenue. [abridged], Comment: Accepted for publication in A&A

Published
2021
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8. Torsional-rotational spectrum of doubly-deuterated dimethyl ether (CH$_3$OCHD$_2$) -- First ALMA detection in the interstellar medium

Author

Richard, C., Jørgensen, J. K., Margulès, L., Motiyenko, R. A., Guillemin, J. -C., and Groner, P.

Subjects
Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics
Abstract

In 2013, we have published the first rotational analysis and detection of mono-deuterated dimethyl ether in the solar-type protostar IRAS 16293-2422 with the IRAM 30m telescope. Dimethyl ether is one of the most abundant complex organic molecules (COMs) in star-forming regions and their D-to-H (D/H) ratios is important to understand its chemistry and trace the source history. We present the first analysis of doubly-deuterated dimethyl ether (methoxy-d2-methane, 1,1-dideuteromethylether) in its ground-vibrational state, based on an effective Hamiltonian for an asymmetric rotor molecules with internal rotors. The analysis covers the frequency range 0.15-1.5THz. The laboratory rotational spectrum of this species was measured between 150 and 1500 GHz with the Lille's submillimeter spectrometer. For the astronomical detection, we used the Atacama Large Millimeter/submillimeter Array (ALMA) observations from the Protostellar Interferometric Line Survey, PILS. New sets of spectroscopic parameters have been determined by a least squares fit with the ERHAM code for both symmetric and asymmetric conformers. As for the mono-deuterated species, these parameters have permitted the first identification in space of both conformers of a doubly-deuterated dimethyl ether via detection near the B component of the Class 0 protostar IRAS 16293-2422., Comment: 11 pages, 5 figures and 6 tables, not yet published, just accepted

Published
2021
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9. Rotational spectroscopic study and astronomical search for propiolamide in Sgr B2(N)

Author

Alonso, E. R., Kolesniková, L., Belloche, A., Mata, S., Garrod, R. T., Jabri, A., León, I., Guillemin, J. -C., Müller, H. S. P., Menten, K. M., and Alonso, J. L.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

For all the amides detected in the interstellar medium (ISM), the corresponding nitriles or isonitriles have also been detected in the ISM, some of which have relatively high abundances. Among the abundant nitriles for which the corresponding amide has not yet been detected is cyanoacetylene (HCCCN), whose amide counterpart is propiolamide (HCCC(O)NH$_2$). With the aim of supporting searches for this amide in the ISM, we provide a complete rotational study of propiolamide from 6 GHz to 440 GHz using rotational spectroscopic techniques in the frequency and time domain. We identified and measured more than 5500 distinct frequency lines of propiolamide and obtained accurate sets of spectroscopic parameters for the ground state and the three low-lying excited vibrational states. We used the ReMoCA spectral line survey performed with the Atacama Large Millimeter/submillimeter Array toward the star-forming region Sgr B2(N) to search for propiolamide. We report the nondetection of propiolamide toward the hot cores Sgr B2(N1S) and Sgr B2(N2). We find that propiolamide is at least 50 and 13 times less abundant than acetamide in Sgr B2(N1S) and Sgr B2(N2), respectively, indicating that the abundance difference between both amides is more pronounced by at least a factor of 8 and 2, respectively, than for their corresponding nitriles. Although propiolamide has yet to be included in astrochemical modeling networks, the observed upper limit to the ratio of propiolamide to acetamide seems consistent with the ratios of related species as determined from past simulations., Comment: The article will be published as a regular paper in Astronomy and Astrophysics

Published
2021
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10. Millimeter- and submillimeter-wave spectroscopy of thioformamide and interstellar search toward Sgr B2(N)

Author

Motiyenko, R. A., Belloche, A., Garrod, R. T., Margulès, L., Müller, H. S. P., Menten, K. M., and Guillemin, J. -C.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Thioformamide NH2CHS is a sulfur-bearing analog of formamide NH2CHO. The latter was detected in the interstellar medium back in the 1970s. Most of the sulfur-containing molecules detected in the interstellar medium are analogs of corresponding oxygen-containing compounds. Therefore, thioformamide is an interesting candidate for a search in the interstellar medium. The rotational spectrum of thioformamide was measured and analyzed in the frequency range 150 to 660 GHz using the Lille spectrometer. We searched for thioformamide toward the high-mass star-forming region Sagittarius (Sgr) B2(N) using the ReMoCA spectral line survey carried out with the Atacama Large Millimeter/submillimeter Array (ALMA). Accurate rotational constants were obtained from the analysis of the ground state of parent, 34S, 13C, and 15N singly substituted isotopic species of thioformamide. For the parent isotopolog, the lowest two excited vibrational states, v12 = 1 and v9 = 1, were analyzed using a model that takes Coriolis coupling into account. Thioformamide was not detected toward the hot cores Sgr B2(N1S) and Sgr B2(N2). The sensitive upper limits indicate that thioformamide is nearly three orders of magnitude at least less abundant than formamide. This is markedly different from methanethiol, which is only about two orders of magnitude less abundant than methanol in both sources. The different behavior shown by methanethiol versus thioformamide may be caused by the preferential formation of the latter (on grains) at late times and low temperatures, when CS abundances are depressed. This reduces the thioformamide-to-formamide ratio, because the HCS radical is not as readily available under these conditions.

Published
2020
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11. Extensive ro-vibrational analysis of deuterated-cyanoacetylene (DC$_3$N) from millimeter-wavelengths to the infrared domain

Author

Melosso, M., Bizzocchi, L., Adamczyk, A., Canè, E., Caselli, P., Colzi, L., Dore, L., Giuliano, B. M., Guillemin, J. -C., Martin-Drumel, M. -A., Pirali, O., Charmet, A. Pietropolli, Prudenzano, D., Rivilla, V. M., and Tamassia, F.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Cyanoacetylene, the simplest cyanopolyyne, is an abundant interstellar molecule commonly observed in a vast variety of astronomical sources. Despite its importance as a potential tracer of the evolution of star-forming processes, the deuterated form of cyanoacetylene is less observed and less studied in the laboratory than the main isotopologue. Here, we report the most extensive spectroscopic characterization of DC$_3$N to date, from the millimeter domain to the infrared region. Rotational and ro-vibrational spectra have been recorded using millimeter-wave frequency-modulation and Fourier-transform infrared spectrometers, respectively. All the vibrational states with energy up to 1015 cm$^{-1}$ have been analyzed in a combined fit, where the effects due to anharmonic resonances have been adequately accounted for. The analysis contains over 6500 distinct transition frequencies, from which all the vibrational energies have been determined with good precision for many fundamental, overtone, and combination states. This work provides a comprehensive line catalog for astronomical observations of DC$_3$N, Comment: 14 pages, 3 figures, 8 tables, accepted for publication in JQSRT

Published
2020
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13. Spectroscopic study and astronomical detection of doubly 13C-substituted ethyl cyanide

Author

Margulès, L., Belloche, A., Müller, H. S. P., Motiyenko, R. A., Guillemin, J. -C., Garrod, R. T., and Menten, K. M.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We have performed a spectral line survey called EMoCA toward Sagittarius B2(N) between 84 and 114 GHz with ALMA. Line intensities of the main isotopic species of ethyl cyanide and its singly 13C-substituted isotopomers observed toward the hot molecular core Sgr B2(N2) suggest that the doubly 13C-substituted isotopomers should be detectable also. We want to determine the spectroscopic parameters of all three doubly 13C-substituted isotopologues of ethyl cyanide to search for them in our ALMA data. We investigated the laboratory rotational spectra of the three species between 150 and 990 GHz. We searched for emission lines produced by these species in the ALMA spectrum of Sgr B2(N2). We modeled their emission as well as the emission of the 12C and singly 13C-substituted isotopologues assuming local thermodynamic equilibrium. We identified more than 5000 rotational transitions, pertaining to more than 3500 different transition frequencies, in the laboratory for each of the three isotopomers. The quantum numbers reach J ~ 115 and K_a ~ 35, resulting in accurate spectroscopic parameters and accurate rest frequency calculations beyond 1000 GHz for strong to moderately weak transitions of either isotopomer. All three species are unambiguously detected in our ALMA data. The 12C/13C column density ratio of the isotopomers with one 13C atom to the ones with two 13C atoms is about 25. Ethyl cyanide is the second molecule after methyl cyanide for which isotopologues containing two 13C atoms have been securely detected in the interstellar medium. The model of our ethyl cyanide data suggests that we should be able to detect vibrational satellites of the main species up to at least v_19 = 1 at 1130 K and up to v_13 + v_21 = 2 at 600 K for the isotopologues with one 13C atom in our present ALMA data. Such satellites may be too weak to be identified unambiguously for isotopologues with two 13C atoms., Comment: accepted for publication in A&A

Published
2016
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14. Searching for Trans Ethyl Methyl Ether in Orion KL

Author

Tercero, B., Cernicharo, J., López, A., Brouillet, N., Kolesniková, L., Motiyenko, R. A., Margulès, L., Alonso, J. L., and Guillemin, J. -C.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

We report on the tentative detection of $trans$ Ethyl Methyl Ether (tEME), $t-CH_3CH_2OCH_3$, through the identification of a large number of rotational lines from each one of the spin states of the molecule towards Orion KL. We also search for $gauche$-$trans$-n-propanol, $Gt-n-CH_3CH_2CH_2OH$, an isomer of tEME in the same source. We have identified lines of both species in the IRAM 30m line survey and in the ALMA Science Verification data. We have obtained ALMA maps to establish the spatial distribution of these species. Whereas tEME mainly arises from the compact ridge component of Orion, Gt-n-propanol appears at the emission peak of ethanol (south hot core). The derived column densities of these species at the location of their emission peaks are $\leq(4.0\pm0.8)\times10^{15} cm^{-2}$ and $\leq(1.0\pm0.2)\times10^{15} cm^{-2}$ for tEME and Gt-n-propanol, respectively. The rotational temperature is $\sim100 K$ for both molecules. We also provide maps of $CH_3OCOH$, $CH_3CH_2OCOH$, $CH_3OCH_3$, $CH_3OH$, and $CH_3CH_2OH$ to compare the distribution of these organic saturated O-bearing species containing methyl and ethyl groups in this region. Abundance ratios of related species and upper limits to the abundances of non-detected ethers are provided. We derive an abundance ratio $N(CH_3OCH_3)/N(tEME)\geq150$ in the compact ridge of Orion., Comment: Accepted in A&A Letters

Published
2015
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15. The rotation-tunneling spectrum of 3-hydroxypropenal and confirmation of its detection toward IRAS 16293-2422 B.

Author

Müller, H. S. P., Coutens, A., Jørgensen, J. K., Margulès, L., Motiyenko, R. A., and Guillemin, J.-C.

Subjects
LOCAL thermodynamic equilibrium, RADIO lines, SPECTRAL lines, QUANTUM numbers, FREQUENCY spectra
Abstract

Context. 3-Hydroxypropenal (HOCHCHCHO) is the lower energy tautomer of malonaldehyde which displays a complex rotation-tunneling spectrum. It was detected somewhat tentatively toward the solar-type protostellar system IRAS 16293-2422 with ALMA in the framework of the Protostellar Interferometric Line Survey (PILS). Several transitions, however, had large residuals, preventing not only their detection, but also the excitation temperature of the species from being determined unambiguously. Aims. We want to extend the existing rotational line list of 3-hydroxypropenal to shed more light on the recent observational results and to facilitate additional radio astronomical searches for this molecule. Methods. We recorded and analyzed the rotation-tunneling spectrum of 3-hydroxypropenal in the frequency regions between 150 and 330 GHz and between 400 and 660 GHz. Transitions were searched for in the PILS observations of IRAS 16293-2422. Local thermodynamic equilibrium (LTE) models were carried out and compared to the observations to constrain the excitation temperature. Additional transitions were searched for in other ALMA archival data of the same source to confirm the presence of 3-hydroxypropenal. Results. More than 7500 different spectral lines, corresponding to more than 11 500 transitions, were assigned in the course of our investigation with quantum numbers 2 ≤ J ≤ 100, Ka ≤ 59, and Kc ≤ 97, resulting in a greatly improved set of spectroscopic parameters. The comparison between the LTE models and the observations yields an excitation temperature of 125 K with a column density N = 1.0 × 1015 cm−2 for this species. We identified seven additional lines of 3-hydroxypropenal that show a good agreement with the model in the ALMA archive data. Conclusions. The calculated rotation-tunneling spectrum of 3-hydroxypropenal has sufficient accuracy for radio astronomical searches. With the solution of the excitation temperature conundrum and the detection of seven more lines, we consider the detection of 3-hydroxypropenal toward IRAS 16293-2422 as secure. [ABSTRACT FROM AUTHOR]

Published
2024
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19. Discovery of CH3CHCO in TMC-1 with the QUIJOTE line survey

Author

Ministerio de Ciencia e Innovación (España), European Commission, Ministerio de Universidades (España), Fuentetaja, R. [0000-0002-4859-1458], Cabezas, Carlos [0000-0002-1254-7738], Agúndez, Marcelino [0000-0003-3248-3564], Tercero, Belén [0000-0002-4782-5259], Marcelino, Nuria [0000-0001-7236-4047], Pardo Carrión, Juan Ramón [0000-0003-4639-8440], Guillemin, J. -C. [0000-0002-2929-057X], Vicente, P. de [0000-0002-5902-5005], Cernicharo, José [0000-0002-3518-2524], Fuentetaja, R., Bermúdez, Celina, Cabezas, Carlos, Agúndez, Marcelino, Tercero, Belén, Marcelino, Nuria, Pardo Carrión, Juan Ramón, Margulès, L., Motiyenko, R. A., Guillemin, J. -C., Vicente, P. de, Cernicharo, José, Ministerio de Ciencia e Innovación (España), European Commission, Ministerio de Universidades (España), Fuentetaja, R. [0000-0002-4859-1458], Cabezas, Carlos [0000-0002-1254-7738], Agúndez, Marcelino [0000-0003-3248-3564], Tercero, Belén [0000-0002-4782-5259], Marcelino, Nuria [0000-0001-7236-4047], Pardo Carrión, Juan Ramón [0000-0003-4639-8440], Guillemin, J. -C. [0000-0002-2929-057X], Vicente, P. de [0000-0002-5902-5005], Cernicharo, José [0000-0002-3518-2524], Fuentetaja, R., Bermúdez, Celina, Cabezas, Carlos, Agúndez, Marcelino, Tercero, Belén, Marcelino, Nuria, Pardo Carrión, Juan Ramón, Margulès, L., Motiyenko, R. A., Guillemin, J. -C., Vicente, P. de, and Cernicharo, José

Abstract

We report the detection of methyl ketene towards TMC-1 with the QUIJOTE line survey. Nineteen rotational transitions with rotational quantum numbers ranging from J = 3 up to J = 5 and Ka =< 2 were identified in the frequency range 32.0-50.4 GHz, 11 of which arise above the 3{\sigma} level. We derived a column density for CH3CHCO of N=1.5x10^11 cm-2 and a rotational temperature of 9 K. Hence, the abundance ratio between ketene and methyl ketene, CH2CO/CH3CHCO, is 93. This species is the second C3H4O isomer detected. The other, trans-propenal (CH2CHCHO), corresponds to the most stable isomer and has a column density of N=(2.2+-0.3)x10^11 cm-2, which results in an abundance ratio CH2CHCHO/CH3CHCO of 1.5. The next non-detected isomer with the lowest energy is cis-propenal, which is therefore a good candidate for future discovery. We have carried out an in-depth study of the possible gas-phase chemical reactions involving methyl ketene to explain the abundance detected, achieving good agreement between chemical models and observations.

Published
2023

20. The submillimeter spectrum of deuterated glycolaldehydes

Author

Bouchez, A., Margules, L., Motiyenko, R. A., Guillemin, J-C., Walters, A., Bottinelli, S., Ceccarelli, C., and Kahane, C.

Subjects
Astrophysics - Galaxy Astrophysics
Abstract

Glycolaldehyde, a sugar-related interstellar prebiotic molecule, has recently been detected in two star-forming regions, Sgr B2(N) and G31.41+0.31. The detection of this new species increased the list of complex organic molecules detected in the interstellar medium (ISM) and adds another level to the chemical complexity present in space. Besides, this kind of organic molecule is important because it is directly linked to the origin of life. For many years, astronomers have been struggling to understand the origin of this high chemical complexity in the ISM. The study of deuteration may provide crucial hints. In this context, we have measured the spectra of deuterated isotopologues of glycolaldehyde in the laboratory: the three monodeuterated ones (CH2OD-CHO, CHDOH-CHO and CH2OH-CDO) and one dideuterated derivative (CHDOH-CDO) in the ground vibrational state. Previous laboratory work on the D-isotopologues of glycolaldehyde was restricted to less than 26 GHz. We used a solidstate submillimeter-wave spectrometer in Lille with an accuracy for isolated lines better than 30 kHz to acquire new spectroscopic data between 150 and 630 GHz and employed the ASFIT and SPCAT programs for analysis. We measured around 900 new lines for each isotopologue and determined spectroscopic parameters. This allows an accurate prediction in the ALMA range up to 850 GHz. This treatment meets the needs for a first astrophysical research, for which we provide an appropriate set of predictions., Comment: 5 pages, 3 figures, 1 table in the paper, 4 tables available on line

Published
2012
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27. Discovery of CH3CHCO in TMC-1 with the QUIJOTE line survey

Author

Fuentetaja, R., primary, Bermúdez, C., additional, Cabezas, C., additional, Agúndez, M., additional, Tercero, B., additional, Marcelino, N., additional, Pardo, J. R., additional, Margulès, L., additional, Motiyenko, R. A., additional, Guillemin, J.-C., additional, de Vicente, P., additional, and Cernicharo, J., additional

Published
2023
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29. Rotational spectroscopy and astronomical search for the 2-hydroxyacetonitrile isotopologues HO13CH2CN, HOCH213CN, and DOCH2CN.

Author

Margulès, L, Coutens, A, Ligterink, N F W, Ahmadi, A, Motiyenko, R A, Alekseev, E A, Vastel, C, Caux, E, and Guillemin, J-C

Subjects
ASTRONOMICAL spectroscopy, ISOTOPOLOGUES, MICROWAVE spectroscopy, PARTITION functions, QUANTUM numbers, INTERSTELLAR medium
Abstract

The main isotopologue of 2-hydroxyacetonitrile (glycolonitrile; HOCH2CN) has recently been detected in the interstellar medium (ISM). To date, no rotational spectroscopy of 2-hydroxyacetonitrile 13C-isotopologues studies has been carried out and only few centimetre-wave measurements of one deuterated isotopologue (DOCH2CN) exist. The rotational spectrum of the 2-hydroxyacetonitrile 13C-isotopologues and DOCH2CN was investigated from 150 to 530 GHz. As the parent isotopic species, the other 2-hydroxyacetonitrile isotopologues exhibit large amplitude motion due to the torsion of the hydroxyl group. The analyses of the spectra were carried out using the reduced axis system (RAS) formalism and Watson's S-reduction Hamiltonian implemented in the spfit code. More than 3000 lines were fitted for the three studied isotopologues, with quantum number values reaching 60–67 for J and 21–25 for K a depending on the species. Accurate line lists up to 600 GHz and partition functions are provided. A search for these isotopologues in SMM1-a and IRAS 16293 B surveys resulted in non-detections; upper limits to the column density were determined. The accurate spectroscopic prediction of their spectra provided in this work will allow astronomers to continue the search for 2-hydroxyacetonitrile isotopologues in the ISM. [ABSTRACT FROM AUTHOR]

Published
2023
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35. Synchrotron-based far-infrared spectroscopy of HC3N: Extended ro-vibrational analysis and new line list up to 3360 cm−1

Author

Tamassia, F., Bizzocchi, L., Melosso, M., Martin-Drumel, M. -A., Pirali, O., Pietropolli Charmet, A., Cane, E., Dore, L., Gordon, I. E., Guillemin, J. -C., Giuliano, B. M., Caselli, P., Alessandrini, S., Barone, V., Puzzarini, C., Tamassia F., Bizzocchi L., Melosso M., Martin-Drumel M.-A., Pirali O., Pietropolli Charmet A., Cane' E., Dore L., Gordon I.E., Guillemin J.-C., Giuliano B.M., Caselli P., Alessandrini S., Barone V., and Puzzarini C.

Subjects
Spectroscopic database, Energy level, Ro-vibrational spectra, Cyanoacetylene, Energy levels, Interstellar matter, Molecular spectroscopy, Settore CHIM/02 - Chimica Fisica
Abstract

The far-infrared spectrum of HC3N has been recorded at high resolution between 70 and 500 cm−1using synchrotron radiation. Four prominent features, i.e., ν7, ν6−ν7, ν4−ν6, and 2ν7 have been identified in the spectrum together with many associated hot bands. In addition, rotational transitions for the interacting v4=v7=1, (v6=2,v7=1), (v5=1,v7=2), and v7=5 vibrationally excited states have been recorded in the millimeter/submillimeter region. The newly assigned transitions, together with those reported previously, form a comprehensive data set including about 17 000 transitions, which involves almost all the vibrational states of HC3N lying below 1300 cm−1 plus some excited states with energies between 2075 and 3550 cm−1. These data have been fitted to an effective Hamiltonian which takes into account rotational and vibrational l-type resonance effects, together with a number of anharmonic interaction terms. On average, all the analysed data are reproduced within the experimental accuracy. About 90 000 rotational and ro-vibrational transition frequencies have been computed on the basis of the spectroscopic constants obtained from the global fit in order to support data interpretation and astronomical searches in the interstellar medium and planetary atmospheres. Part of these data is included in the 2020 release of the HITRAN database.

Published
2022

45. Submillimeter wave spectroscopy and astronomical search for 1-propanimine

Author

Margules, L., Remijan, A., Belloche, A., Motiyenko, R. A., McGuire, B. A., Xue, C., Mueller, H. S. P., Garrod, R. T., Menten, K. M., Guillemin, J-C, Margules, L., Remijan, A., Belloche, A., Motiyenko, R. A., McGuire, B. A., Xue, C., Mueller, H. S. P., Garrod, R. T., Menten, K. M., and Guillemin, J-C

Abstract

Context. Methanimine, CH2NH, and ethanimine, CH3CHNH, were both detected in the interstellar medium (ISM), the former in the 1970s and the latter nearly a decade ago. By analogy with nitriles, for which hydrogen cyanide, acetonitrile, and ethyl cyanide are the most abundant, n-propanimine was suggested as a candidate for detection in the ISM. Aims. To date, no measurements of the rotational spectrum of 1-propanimine have been made. We present measurements and an analysis of its spectrum in the millimeter- and submillimeter-wave domain in order to provide an accurate prediction that is required to search for this molecule in the ISM. Methods. The rotational spectrum of propanimine was investigated from 150 to 470 GHz. Watson's asymmetric top Hamiltonian in the I (R) representation and S reduction was used for the analysis. The new prediction allowed us to search for 1-propanimine toward the high-mass star forming region Sagittarius B2(N), the dark molecular cloud TMC-1, as well as a sample of low-mass protostellar objects. These sources were observed with the Atacama Large Millimeter/submillimeter Array, the Green Bank Telescope, or the IRAM 30 m telescope. Results. A total of 585 and 296 transitions of the E and Z-1-propanimine, respectively, were newly assigned and fitted in the laboratory spectra recorded up to 470 GHz. Quantum numbers up to J = 73 and K-a = 18 were reached for the E isomer and J = 56 and K-a = 17 for the Z isomer. We report the nondetection of 1-propanimine toward all astronomical sources investigated in this work. We find in particular that 1-propanimine is at least 20 times less abundant than methanimine in the envelope of the high-mass star forming region Sagittarius B2(N). Conclusions. The accurate spectroscopic prediction of its spectrum provided in this work will allow astronomers to continue the search for 1-propanimine in the ISM.

Published
2022

46. Millimetre-wave laboratory study of glycinamide and a search for it with ALMA towards Sagittarius B2(N)

Author

Kisiel, Z., Kolesnikova, L., Belloche, A., Guillemin, J-C, Pszczolkowski, L., Alonso, E. R., Garrod, R. T., Bialkowska-Jaworska, E., Leon, I, Mueller, H. S. P., Menten, K. M., Alonso, J. L., Kisiel, Z., Kolesnikova, L., Belloche, A., Guillemin, J-C, Pszczolkowski, L., Alonso, E. R., Garrod, R. T., Bialkowska-Jaworska, E., Leon, I, Mueller, H. S. P., Menten, K. M., and Alonso, J. L.

Abstract

Context. Glycinamide (NH2CH2C(O)NH2) is considered to be one of the possible precursors of the simplest amino acid, glycine. Its only rotational spectrum reported so far has been in the centimetre-wave region on a laser-ablation generated supersonic expansion sample. Aims. The aim of this work is to extend the laboratory spectrum of glycinamide to the millimetre (mm) wave region to support searches for this molecule in the interstellar medium and to perform the first check for its presence in the high-mass star forming region Sagittarius B2(N). Methods. Glycinamide was synthesised chemically and was studied with broadband rotational spectroscopy in the 90-329 GHz region with the sample in slow flow at 50 degrees C. Tunnelling across a low-energy barrier between two symmetry equivalent configurations of the molecule resulted in splitting of each vibrational state and many perturbations in associated rotational energy levels, requiring careful coupled state fits for each vibrational doublet. We searched for emission of glycinamide in the imaging spectral line survey ReMoCA performed with the Atacama Large Millimetre/submillimetre Array towards Sgr B2(N). The astronomical spectra were analysed under the assumption of local thermodynamic equilibrium. Results. We report the first analysis of the mm-wave rotational spectrum of glycinamide, resulting in fitting - to experimental measurement accuracy - of over 1200 assigned and measured transition frequencies for the ground-state tunnelling doublet and of many lines for tunnelling doublets for two singly excited vibrational states. We also determine the precise vibrational separation in each doublet. We did not detect emission from glycinamide in the hot molecular core Sgr B2(N1S). We derived a column density upper limit of 1.5 x 10(16) cm(-2), which implies that glycinamide is at least seven times less abundant than aminoacetonitrile and 1.8 times less abundant than urea in this source. A comparison with results of astroch

Published
2022

47. Discovery of CH3CHCO in TMC-1 with the QUIJOTE line survey.

Author

Fuentetaja, R., Bermúdez, C., Cabezas, C., Agúndez, M., Tercero, B., Marcelino, N., Pardo, J. R., Margulès, L., Motiyenko, R. A., Guillemin, J.-C., de Vicente, P., and Cernicharo, J.

Subjects
CHEMICAL models, GAS phase reactions, QUANTUM numbers, CHEMICAL reactions, QUANTUM transitions, ASTROCHEMISTRY, ISOMERS
Abstract

We report the detection of methyl ketene towards TMC-1 with the QUIJOTE line survey. Nineteen rotational transitions with rotational quantum numbers ranging from J = 3 up to J = 5 and Ka ≤ 2 were identified in the frequency range 32.0–50.4 GHz, 11 of which arise above the 3σ level. We derived a column density for CH3CHCO of N = 1.5 × 1011 cm−2 and a rotational temperature of 9 K. Hence, the abundance ratio between ketene and methyl ketene, CH2CO/CH3CHCO, is 93. This species is the second C3H4O isomer detected. The other, trans-propenal (CH2CHCHO), corresponds to the most stable isomer and has a column density of N = (2.2 ± 0.3)×1011 cm−2, which results in an abundance ratio CH2CHCHO/CH3CHCO of 1.5. The next non-detected isomer with the lowest energy is cis-propenal, which is therefore a good candidate for future discovery. We have carried out an in-depth study of the possible gas-phase chemical reactions involving methyl ketene to explain the abundance detected, achieving good agreement between chemical models and observations. [ABSTRACT FROM AUTHOR]

Published
2023
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50. Millimetre-wave laboratory study of glycinamide and a search for it with ALMA towards Sagittarius B2(N)

Author

Kisiel, Z., primary, Kolesniková, L., additional, Belloche, A., additional, Guillemin, J.-C., additional, Pszczółkowski, L., additional, Alonso, E. R., additional, Garrod, R. T., additional, Białkowska-Jaworska, E., additional, León, I., additional, Müller, H. S. P., additional, Menten, K. M., additional, and Alonso, J. L., additional

Published
2022
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