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1. 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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2. Detection of CH$_3$C$_3$N in Titan's Atmosphere

Author

Thelen, A. E., Cordiner, M. A., Nixon, C. A., Vuitton, V., Kisiel, Z., Charnley, S. B., Palmer, M. Y., Teanby, N. A., and Irwin, P. G. J.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Titan harbors a dense, organic-rich atmosphere primarily composed of N$_2$ and CH$_4$, with lesser amounts of hydrocarbons and nitrogen-bearing species. As a result of high sensitivity observations by the Atacama Large Millimeter/submillimeter Array (ALMA) in Band 6 ($\sim$230-272 GHz), we obtained the first spectroscopic detection of CH$_3$C$_3$N (methylcyanoacetylene or cyanopropyne) in Titan's atmosphere through the observation of seven transitions in the $J = 64\rightarrow63$ and $J = 62\rightarrow61$ rotational bands. The presence of CH$_3$C$_3$N on Titan was suggested by the Cassini Ion and Neutral Mass Spectrometer detection of its protonated form: C$_4$H$_3$NH$^+$, but the atmospheric abundance of the associated (deprotonated) neutral product is not well constrained due to the lack of appropriate laboratory reaction data. Here, we derive the column density of CH$_3$C$_3$N to be (3.8-5.7)$\times10^{12}$ cm$^{-2}$ based on radiative transfer models sensitive to altitudes above 400 km Titan's middle atmosphere. When compared with laboratory and photochemical model results, the detection of methylcyanoacetylene provides important constraints for the determination of the associated production pathways (such as those involving CN, CCN, and hydrocarbons), and reaction rate coefficients. These results also further demonstrate the importance of ALMA and (sub)millimeter spectroscopy for future investigations of Titan's organic inventory and atmospheric chemistry, as CH$_3$C$_3$N marks the heaviest polar molecule detected spectroscopically in Titan's atmosphere to date., Comment: 17 pages, 6 figures, 2 tables. Accepted in ApJ Letters

Published
2020
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3. Re-exploring Molecular Complexity with ALMA (ReMoCA): Interstellar detection of urea

Author

Belloche, A., Garrod, R. T., Müller, H. S. P., Menten, K. M., Medvedev, I., Thomas, J., and Kisiel, Z.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Urea, NH2C(O)NH2, is a molecule of great importance in organic chemistry and biology. Two searches for urea in the interstellar medium were reported in the past, but neither were conclusive. We want to take advantage of the increased sensitivity and angular resolution provided by ALMA to search for urea toward the hot cores embedded in the high-mass star forming region Sgr B2(N). We use the new spectral line survey ReMoCA performed toward Sgr B2(N) with ALMA in its observing cycle 4. The spectra are analyzed under the LTE approximation. We construct a full synthetic spectrum that includes all the molecules identified so far. We use new spectroscopic predictions for urea in its vibrational ground state and first vibrationally excited state to search for this complex organic molecule in the ReMoCA data set. We employ the gas-grain chemical kinetics model MAGICKAL to interpret the astronomical observations. We report the secure detection of urea toward the hot core Sgr B2(N1) at a position called N1S slightly offset from the continuum peak, which avoids obscuration by the dust.. We derive a column density of 2.7x10^16 cm-2 for urea, two orders of magnitude lower than formamide, and one order of magnitude below methyl isocyanate, acetamide, and N-methylformamide. The latter molecule is reliably identified toward N1S with 60 clearly detected lines, confirming an earlier claim of its tentative interstellar detection. We report the first interstellar detections of NH2CH18O and 15NH2CHO. We also report the nondetection of urea toward the secondary hot core Sgr B2(N2) with an abundance relative to the other four species at least one order of magnitude lower than toward the main hot core. Our chemical model roughly reproduces the relative abundances of formamide, methyl isocyanate, acetamide, and N-methylformamide, but it overproduces urea by at least one order of magnitude., Comment: Accepted for publication in A&A. The abstract has been shortened to comply with the size limit set by arXiv. A few minor corrections were applied to version 2

Published
2019
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4. Interferometric imaging of Titan's HC$_3$N, H$^{13}$CCCN and HCCC$^{15}$N

Author

Cordiner, M. A., Nixon, C. A., Charnley, S. B., Teanby, N. A., Molter, E. M., Kisiel, Z., and Vuitton, V.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

We present the first maps of cyanoacetylene isotopologues in Titan's atmosphere, including H$^{13}$CCCN and HCCC$^{15}$N, detected in the 0.9 mm band using the Atacama Large Millimeter/submillimeter array (ALMA) around the time of Titan's (southern winter) solstice in May 2017. The first high-resolution map of HC$_3$N in its $v_7=1$ vibrationally excited state is also presented, revealing a unique snapshot of the global HC$_3$N distribution, free from the strong optical depth effects that adversely impact the ground-state ($v=0$) map. The HC$_3$N emission is found to be strongly enhanced over Titan's south pole (by a factor of 5.7 compared to the north pole), consistent with rapid photochemical loss of HC$_3$N from the summer hemisphere combined with production and transport to the winter pole since the April 2015 ALMA observations. The H$^{13}$CCCN/HCCC$^{15}$N flux ratio is derived at the southern HC$_3$N peak, and implies an HC$_3$N/HCCC$^{15}$N ratio of $67\pm14$. This represents a significant enrichment in $^{15}$N compared with Titan's main molecular nitrogen reservoir, which has a $^{14}$N/$^{15}$N ratio of 167, and confirms the importance of photochemistry in determining the nitrogen isotopic ratio in Titan's organic inventory., Comment: Accepted for publication in ApJL, May 2018

Published
2018
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5. Deep K-band observations of TMC-1 with the Green Bank Telescope: Detection of HC7O, non-detection of HC11N, and a search for new organic molecules

Author

Cordiner, M. A., Charnley, S. B., Kisiel, Z., McGuire, B. A., and Kuan, Y. -J.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

The 100 m Robert C. Byrd Green Bank Telescope K-band (KFPA) receiver was used to perform a high-sensitivity search for rotational emission lines from complex organic molecules in the cold interstellar medium towards TMC-1 (cyanopolyyne peak), focussing on the identification of new carbon-chain-bearing species as well as molecules of possible prebiotic relevance. We report a detection of the carbon-chain oxide species HC$_7$O and derive a column density of $(7.8\pm0.9)\times10^{11}$~cm$^{-2}$. This species is theorized to form as a result of associative electron detachment reactions between oxygen atoms and C$_7$H$^-$, and/or reaction of C$_6$H$_2$$^+$ with CO (followed by dissociative electron recombination). Upper limits are given for the related HC$_6$O, C$_6$O and C$_7$O molecules. In addition, we obtained the first detections of emission from individual $^{13}$C isotopologues of HC$_7$N, and derive abundance ratios HC$_7$N/HCCC$^{13}$CCCCN = $110\pm16$ and HC$_7$N/HCCCC$^{13}$CCCN = $96\pm 11$, indicative of significant $^{13}$C depletion in this species relative to the local interstellar elemental $^{12}$C/$^{13}$C ratio of 60-70. The observed spectral region covered two transitions of HC$_{11}$N, but emission from this species was not detected, and the corresponding column density upper limit is $7.4\times10^{10}$ cm$^{-2}$ (at 95% confidence). This is significantly lower than the value of $2.8\times10^{11}$ cm$^{-2}$ previously claimed by Bell et al. (1997) and confirms the recent non-detection of HC$_{11}$N in TMC-1 by Loomis et al. (2016). Upper limits were also obtained for the column densities of malononitrile and the nitrogen heterocycles quinoline, isoquinoline and pyrimidine., Comment: Accepted for publication in ApJ

Published
2017
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6. Mapping Vinyl Cyanide and Other Nitriles in Titan's Atmosphere Using ALMA

Author

Lai, J. C. -Y., Cordiner, M. A., Nixon, C. A., Achterberg, R. K., Molter, E. M., Teanby, N. A., Palmer, M. Y., Charnley, S. B., Lindberg, J. E., Kisiel, Z., Mumma, M. J., and Irwin, P. G. J.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Vinyl cyanide (C$_2$H$_3$CN) is theorized to form in Titan's atmosphere via high-altitude photochemistry and is of interest regarding the astrobiology of cold planetary surfaces due to its predicted ability to form cell membrane-like structures (azotosomes) in liquid methane. In this work, we follow up on the initial spectroscopic detection of C$_2$H$_3$CN on Titan by Palmer et al. (2017) with the detection of three new C$_2$H$_3$CN rotational emission lines at submillimeter frequencies. These new, high-resolution detections have allowed for the first spatial distribution mapping of C$_2$H$_3$CN on Titan. We present simultaneous observations of C$_2$H$_5$CN, HC$_3$N, and CH$_3$CN emission, and obtain the first (tentative) detection of C$_3$H$_8$ (propane) at radio wavelengths. We present disk-averaged vertical abundance profiles, two-dimensional spatial maps, and latitudinal flux profiles for the observed nitriles. Similarly to HC$_3$N and C$_2$H$_5$CN, which are theorized to be short-lived in Titan's atmosphere, C$_2$H$_3$CN is most abundant over the southern (winter) pole, whereas the longer-lived CH$_3$CN is more concentrated in the north. This abundance pattern is consistent with the combined effects of high-altitude photochemical production, poleward advection, and the subsequent reversal of Titan's atmospheric circulation system following the recent transition from northern to southern winter. We confirm that C$_2$H$_3$CN and C$_2$H$_5$CN are most abundant at altitudes above 200 km. Using a 300 km step model, the average abundance of C$_2$H$_3$CN is found to be $3.03\pm0.29$ ppb, with a C$_2$H$_5$CN/C$_2$H$_3$CN abundance ratio of $2.43\pm0.26$. Our HC$_3$N and CH$_3$CN spectra can be accurately modeled using abundance gradients above the tropopause, with fractional scale-heights of $2.05\pm0.16$ and $1.63\pm0.02$, respectively., Comment: Accepted for publication in the Astronomical Journal

Published
2017
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7. Ethyl cyanide on Titan: Spectroscopic detection and mapping using ALMA

Author

Cordiner, M. A., Palmer, M. Y., Nixon, C. A., Irwin, P. G. J., Teanby, N. A., Charnley, S. B., Mumma, M. J., Kisiel, Z., Serigano, J., Kuan, Y. -J., Chuang, Y. -L., and Wang, K. -S.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

We report the first spectroscopic detection of ethyl cyanide (C$_2$H$_5$CN) in Titan's atmosphere, obtained using spectrally and spatially resolved observations of multiple emission lines with the Atacama Large Millimeter/submillimeter array (ALMA). The presence of C$_2$H$_5$CN in Titan's ionosphere was previously inferred from Cassini ion mass spectrometry measurements of C$_2$H$_5$CNH$^+$. Here we report the detection of 27 rotational lines from C$_2$H$_5$CN (in 19 separate emission features detected at $>3\sigma$ confidence), in the frequency range 222-241 GHz. Simultaneous detections of multiple emission lines from HC$_3$N, CH$_3$CN and CH$_3$CCH were also obtained. In contrast to HC$_3$N, CH$_3$CN and CH$_3$CCH, which peak in Titan's northern (spring) hemisphere, the emission from C$_2$H$_5$CN is found to be concentrated in the southern (autumn) hemisphere, suggesting a distinctly different chemistry for this species, consistent with a relatively short chemical lifetime for C$_2$H$_5$CN. Radiative transfer models show that most of the C$_2$H$_5$CN is concentrated at altitudes 300-600 km, suggesting production predominantly in the mesosphere and above. Vertical column densities are found to be in the range (2-5)$\times10^{14}$ cm$^{-2}$., Comment: Published in 2015, ApJL, 800, L14

Published
2014
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8. Laboratory Characterization and Astrophysical Detection of Vibrationally Excited States of Vinyl Cyanide in Orion-KL

Author

López, A., Tercero, B., Kisiel, Z., Daly, A. M., Bermúdez, C., Calcutt, H., Marcelino, N., Viti, S., Drouin, B. J., Medvedev, I. R., Neese, C. F., Pszczółkowski, L., Alonso, J. L., and Cernicharo, J.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

New laboratory data of CH$_2$CHCN (vinyl cyanide) in its ground and vibrationally excited states at the microwave to THz domain allow searching for these excited state transitions in the Orion-KL line survey. Frequency-modulated spectrometers combined into a single broadband 50-1900 GHz spectrum provided measurements of CH$_2$CHCN covering a spectral range of 18-1893 GHz, whose assignments was confirmed by Stark modulation spectra in the 18-40 GHz region and by ab-initio anharmonic force field calculations. For analyzing the emission lines of CH$_2$CHCN species detected in Orion-KL we used the excitation and radiative transfer code (MADEX) at LTE conditions. The rotational transitions of the ground state of this molecule emerge from four cloud components of hot core nature which trace the physical and chemical conditions of high mass star forming regions in the Orion-KL Nebula. The total column density of CH$_2$CHCN in the ground state is (3.0$\pm$0.9)x10$^{15}$ cm$^{-2}$. We report on the first interstellar detection of transitions in the v10=1/(v11=1,v15=1) dyad in space, and in the v11=2 and v11=3 states in Orion-KL. The lowest energy vibrationally excited states of vinyl cyanide such as v11=1 (at 328.5 K), v15=1 (at 478.6 K), v11=2 (at 657.8 K), the v10=1/(v11=1,v15=1) dyad (at 806.4/809.9 K), and v11=3 (at 987.9 K) are populated under warm and dense conditions, so they probe the hottest parts of the Orion-KL source. Column density and rotational and vibrational temperatures for CH$_2$CHCN in their ground and excited states, as well as for the isotopologues, have been constrained by means of a sample of more than 1000 lines in this survey. Moreover, we present the detection of methyl isocyanide (CH$_3$NC) for the first time in Orion-KL and a tentative detection of vinyl isocyanide (CH$_2$CHNC) and give column density ratios between the cyanide and isocyanide isomers., Comment: 46 pages, 22 figures, 14 tables, 9 online tables

Published
2014
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13. 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

14. 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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21. Rotational spectra of the less common isotopomers, electric dipole moment and the double minimum inversion potential of H20(super ...)HCl

Author

Kisiel, Z., Pietrewicz, B. A., Fowler, P. W., Legon, A. C., and Steiner, E.

Subjects
Oscillation -- Analysis, Hydrochloric acid -- Chemical properties, Hydrogen bonding -- Analysis, Chemicals, plastics and rubber industries
Abstract

Rotational spectra of 14 different isotopomers of the hydrogen-bonded dimer H20(super ...)HCl have been calculated. In conclusion, the remaining difference, ascribed to motional averaging, implied an operationally defined angle of oscillation for the HCl moiety of 10--12 degrees.

Published
2000

22. Searching for Bio-Precursors and Complex Organic Molecules in Space using the GBT

Author

Cordiner, M, Charnley, S, and Kisiel, Z

Subjects
Space Sciences (General)
Abstract

Using the latest microwave receiver technology, large organic molecules with abundances as low as approx. 10(exp -11) times that of molecular hydrogen are detectable in cold interstellar clouds via their rotational emission line spectra. We report new observations to search for complex molecules, including molecules of possible pre-biotic importance, using the newly-commissioned Kband focal plane array (KFPA) of the NRAO Robert C. Byrd Green Bank Telescope. Spectra are presented of the dense molecular cloud TMC-1, showing strict upper limits on the level of emission from nitrogen-bearing rings pyrimidine, quinoline and iso-quinoline, carbon-chain oxides C60, C70, HC60 and HC70, and the carbon-chain anion C4H-. The typical RMS brightness temperature noise levels we achieved are approx. 1 mK at around 20 GHz.

Published
2012

25. Bond Length Alternation Observed Experimentally: The Case of 1H-Indazole

Author

Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Comunidad de Madrid, Eusko Jaurlaritza, Fundación BBVA, Uriarte, Icíar, Reviriego, Felipe, Calabrese, Camilla, Elguero, José, Kisiel, Z., Alkorta, Ibon, Cocinero, Emilio José, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Comunidad de Madrid, Eusko Jaurlaritza, Fundación BBVA, Uriarte, Icíar, Reviriego, Felipe, Calabrese, Camilla, Elguero, José, Kisiel, Z., Alkorta, Ibon, and Cocinero, Emilio José

Abstract

Bond length alternation is a chemical phenomenon in benzene rings fused to other rings, which has been mainly predicted theoretically. Its physical origin is still not clear and has generated discussion. Here, by using a strategy that combines microwave spectroscopy, custom-made synthesis and high-level ab initio calculations, we demonstrate that this phenomenon is clearly observed in the prototype indazole molecule isolated in the gas phase. The 1H-indazole conformer was detected by rotational spectroscopy, and its 17 isotopologues resulting from single and double heavy atom substitution (C and N) were also unambiguously observed. Several experimental structures were determined and, in particular, the most useful semi-experimental equilibrium structure (r), allowed determination of the heavy atom bond lengths to milli-Ångstrom precision. The experimentally determined bond length alternation is estimated to correspond to 60:40 contributions from the two resonant forms of 1H-indazole.

Published
2019

26. Microwave spectrum, structure, and internal motions of the ketene-ethylene complex

Author

Lovas, F.J., Suenram, R.D., Gillies, C.W., Gillies, J. Z., Fowler, P.W., and Kisiel, Z.

Subjects
Complex compounds -- Spectra, Microwave spectroscopy -- Analysis, Chemistry
Abstract

Pulsed-nozzle Fourier-transform microwave techniques are employed to the structure and properties of ketene-ethylene complex. Crossed structure of the complex derived is in agreement with the crossed-state geometries calculated from theory. Tilt between ethylene and ketene is measured to study the difference between ethylene and acetylene complex structures. Tunneling motion enables the ketene hydrogen exchange with the two pairs of trans ethylene hydrogen.

Published
1994

27. Radioastronomical Searches for Instellar Biomolecules

Author

Kuan, Y.-J, Huang, H.-C, Charnley, S. B, Markwick, A, Botta, O, Ehrenfreund, P, Kisiel, Z, and Butner, H. M

Subjects
Lunar And Planetary Science And Exploration
Abstract

Impacts of comets and asteroids could have delivered large amounts of organic matter to the early Earth. to retain a significant interstellar signature; observations of recent bright comets indicate that they have a molecular inventory consistent with their ices being largely unmodified interstellar material. Many simple organic molecules with biochemical significance observed in circumstellar envelopes and in molecular clouds, similar to that from which the Solar System formed, may have acted as the precursors of the more complex organics found in meteorites. Therefore, there is potentially a strong link between interstellar organics and prebiotic chemical evolution. Radioastronomical observations, particularly at millimeter wavelengths, allow us to determine the chemical composition and characteristics of the molecular inventory in interstellar space. Here we report some of our recent results from extensive astronomical searches for astrobiologically-important interstellar organics.

Published
2003

28. Rotation-vibration interactions in the spectra of polycyclic aromatic hydrocarbons: Quinoline as a test-case species.

Author

Pirali, O., Kisiel, Z., Goubet, M., Gruet, S., Martin-Drumel, M. A., Cuisset, A., Hindle, F., and Mouret, G.

Subjects
*POLYCYCLIC aromatic hydrocarbons, *QUINOLINE, *ASTROPHYSICS, *ASTRONOMICAL observations, *GROUND state (Quantum mechanics), *FOURIER transform infrared spectroscopy
Abstract

Polycyclic aromatic hydrocarbons (PAHs) are highly relevant for astrophysics as possible, though controversial, carriers of the unidentified infrared emission bands that are observed in a number of different astronomical objects. In support of radio-astronomical observations, high resolution laboratory spectroscopy has already provided the rotational spectra in the vibrational ground state of several molecules of this type, although the rotational study of their dense infrared (IR) bands has only recently become possible using a limited number of experimental set-ups. To date, all of the rotationally resolved data have concerned unperturbed spectra. We presently report the results of a high resolution study of the three lowest vibrational states of quinoline C9H7N, an N-bearing naphthalene derivative. While the pure rotational ground state spectrum of quinoline is unperturbed, severe complications appear in the spectra of the v45 and v44 vibrational modes (located at about 168 cm-1 and 178 cm-1, respectively). In order to study these effects in detail, we employed three different and complementary experimental techniques: Fourier-transform microwave spectroscopy, millimeter-wave spectroscopy, and Fourier-transform far-infrared spectroscopy with a synchrotron radiation source. Due to the high density of states in the IR spectra of molecules as large as PAHs, perturbations in the rotational spectra of excited states should be ubiquitous. Our study identifies for the first time this effect and provides some insights into an appropriate treatment of such perturbations. [ABSTRACT FROM AUTHOR]

Published
2015
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30. Enrichment of heavy nitrogen in Titan's HC3N detected using ALMA

Author

Cordiner, M., Nixon, C. A., Charnley, S. B., Teanby, N. A., Molter, E. M., Kisiel, Z., Vuitton, V., NASA Goddard Space Flight Center (GSFC), School of Earth Sciences [Bristol], University of Bristol [Bristol], Institut de Planétologie et d'Astrophysique de Grenoble (IPAG), Institut national des sciences de l'Univers (INSU - CNRS)-Centre National d'Études Spatiales [Toulouse] (CNES)-Centre National de la Recherche Scientifique (CNRS)-Observatoire des Sciences de l'Univers de Grenoble (OSUG ), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut national des sciences de l'Univers (INSU - CNRS)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019])-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), Centre National d'Études Spatiales [Toulouse] (CNES)-Université Grenoble Alpes (UGA)-Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire des Sciences de l'Univers de Grenoble (OSUG), Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Université Joseph Fourier - Grenoble 1 (UJF)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS), and Vuitton, Véronique

Subjects
[PHYS.ASTR.EP] Physics [physics]/Astrophysics [astro-ph]/Earth and Planetary Astrophysics [astro-ph.EP], PLANETARY SCIENCES: SOLAR SYSTEM OBJECTS, 5210 Planetary atmospheres, PLANETARY SCIENCES: FLUID PLANETSDE: 6281 Titan, [PHYS.ASTR.EP]Physics [physics]/Astrophysics [astro-ph]/Earth and Planetary Astrophysics [astro-ph.EP], and hazes, clouds, PLANETARY SCIENCES: ASTROBIOLOGYDE: 5749 Origin and evolution, PLANETARY SCIENCES: ASTROBIOLOGYDE: 5215 Origin of life
Abstract

International audience; Trace isotopic ratios contain unique information on the chemical histories of atmospheric gases. From the combined efforts of previous ground and space-based sub-mm and infrared observations, Titan's atmospheric HCN has been found to be substantially enriched in 15N compared with the bulk N2 reservoir. This is theorized to occur as a consequence of isotope-selective photodissociation of N2 in the upper atmosphere, giving rise to an enhanced abundance of atomic 15N that subsequently becomes incorporated into HCN. Here, we present the first maps of cyanoacetylene isotopologues in Titan's atmosphere, including H13CCCN and HCCC15N, detected in the 0.9 mm band using the Atacama Large Millimeter/submillimeter array (ALMA) around the time of Titan's (southern winter) solstice in May 2017 (see Figure 1). The HC3N emission is found to be strongly enhanced over the south pole (by a factor of 5.7 compared to the north pole), consistent with rapid photochemical loss of HC3N from the summer hemisphere combined with production and transport to the winter pole since the previous (2015) ALMA observations. The H13CCCN/HCCC15N flux ratio is consistent with an HC3N/HCCC15N ratio of 67 ± 14, which is significantly enriched in 15N compared with the main molecular nitrogen reservoir (which has a 14N/15N ratio of 167). This confirms the importance of photochemistry in determining the nitrogen isotopic ratio in Titan's organic inventory. In this presentation I will discuss the impact of these results on our understanding of the origin of Titan's N2, the evolution of its atmospheric 14N/15N ratio, and on our knowledge of the detailed photochemical processes occurring in nitrogen-rich planetary atmospheres.

Published
2018

41. Structure and properties of the weakly bound cyclic trimer (H[sub 2]O)[sub 2]HBr observed by rotational spectroscopy.

Author

Kisiel, Z., Pietrewicz, B.A., Desyatnyk, O., Pszczólkowski, L., STruniewicz, I., and Sadlej, J.

Subjects
*HYDROGEN bromide, *SPECTRUM analysis
Abstract

The weakly bound cyclic trimer (H[sub 2]O)[sub 2]HBr was observed in supersonic expansion and its rotational spectrum was measured in the region 3.6–17.7 GHz by cavity Fourier-transform microwave spectroscopy. Rotational, centrifugal distortion constants, and inertial and principal hyperfine splitting constants were determined for seven isotopomers of (H[sub 2]O)[sub 2]HBr. In addition to the large bromine hyperfine splitting each rotational transition exhibits a fine vibrational splitting into four components, at relative intensities consistent with expectations from the G[sub 8] group classification of the vibration–rotation–tunneling motions in the trimer. The associated four low-lying states are either very close together or well below the inversion barriers, since the differences between their rotational constants are all below 0.02%. The experimental moments of inertia were used to determine r[sub s], r[sub 0], r[sub z], and r[sub m][sup (1L)] geometries, in all of which the heavy atom distances are considerably shorter than similar distances in H[sub 2]O–HBr and (H[sub 2]O)[sub 2]. An improved analysis of the measured electric dipole moment of (H[sub 2]O)[sub 2]HBr is reported, and all experimental results are confronted with predictions from ab initio calculations. © 2003 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published
2003
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42. The observation and characterization by rotational spectroscopy of the weakly bound trimer Ar[sub 2]HBr.

Author

Kisiel, Z., Pietrewicz, B. A., and Pszczółkowski, L.

Subjects
*ARGON spectra, *MICROWAVE spectroscopy
Abstract

The weakly bound trimer between two argon atoms and a molecule of hydrogen bromide was identified from its rotational spectrum observed at conditions of supersonic expansion. The spectrum was measured with a cavity, Fourier transform microwave spectrometer and the rotational, quartic, and bromine hyperfine coupling constants were determined for the two most abundant isotopomers [SUP40]Ar[SUB2]H[SUP79]Br and [SUP40]Ar[SUB2]H[SUP81]Br. The various spectroscopic observables dependent on the harmonic force field were successfully reproduced using ab initio force field calculations. Experimental moments of inertia were then used, together with calculated vibration-rotation inertial contributions to derive the r[SUBz] geometry. The resulting d(ArBr) = 4.166 Å, d(ArAr) = 3.840 Å, compare with r[SUBz] distances d(ArBr) = 4.155 Å for ArHBr, and d(ArAr) = 3.836 Å for Ar[SUB2]. Angular information derived from the measured nuclear hyperfine splitting constants and from the electric dipole moment was found to be in remarkable agreement. Comparisons of the available information on the interaction energy and geometries for the ArHX and the Ar[SUB2]HX series of clusters have been made in order to assess the relationship between the experimental ground state based structural parameters and the desired equilibrium geometry. [ABSTRACT FROM AUTHOR]

Published
2002
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45. Corannulene and its complex with water: A tiny cup of water

Author

Perez, C., Steber, A.L., Rijs, A.M., Temelso, B., Shields, G.C., Lopez, J.C., Kisiel, Z., Schnell, M., Perez, C., Steber, A.L., Rijs, A.M., Temelso, B., Shields, G.C., Lopez, J.C., Kisiel, Z., and Schnell, M.

Abstract

Contains fulltext : 174624.pdf (publisher's version ) (Open Access) Contains fulltext : 174624_suppl.pdf (publisher's version ) (Open Access)

Published
2017

47. Mapping Vinyl Cyanide and Other Nitriles in Titan’s Atmosphere Using ALMA

Author

Lai, J. C.-Y., primary, Cordiner, M. A., additional, Nixon, C. A., additional, Achterberg, R. K., additional, Molter, E. M., additional, Teanby, N. A., additional, Palmer, M. Y., additional, Charnley, S. B., additional, Lindberg, J. E., additional, Kisiel, Z., additional, Mumma, M. J., additional, and Irwin, P. G. J., additional

Published
2017
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50. First assignment of the rotational spectrum of a molecule containing two iodine nuclei: Spectroscopic constants and structure of CH2I2.

Author

Kisiel, Z., Pszczól\kowski, L., Caminati, W., and Favero, P. G.

Subjects
*ROTATIONAL motion, *IODINE, *SPECTROSCOPIC imaging, *SUPERSONIC planes
Abstract

The rotational spectrum of methylene iodide was assigned by combining information from broadband mm wave spectra of low-J transitions recorded with a supersonic-jet spectrometer and of high-J transitions measured for a room temperature sample. In the first step, the analysis of central frequencies of hyperfine multiplets for rotational transitions with J″ up to 189 resulted in constants of the rotational Hamiltonian HR, in which the fitted quartic centrifugal distortion constants were consistent with predictions made from ab initio calculations. The knowledge of HR allowed accurate prediction and assignment of the hyperfine structure due to the two iodine nuclei, which was made on the basis of well isolated splitting patterns observed in the jet and the effects of nuclear spin statistics visible therein. The final rotational constants are A=22 034.437(2), B=620.584(2), C=605.798(2) MHz and the hyperfine coupling constants are χaa=-1180.9(1), χbb-χcc=-892.42(5), |χab|=1358.9(5) MHz, and χzz=-2030.1(5), χxx=993.4(10), χyy=1036.7(1) MHz. The angle θza between the inertial a axis and the principal quadrupole axis z is 32.00(1)° and is consistent with /_ (CI·a)=33.0(2)° from the fitted structure. The structural parameters of the halogen in CH2I2 are r(CI)=2.134(2)Å and /_ (ICI)=114.0(3)° and compare well with extrapolation from the remaining methylene halides. © 1996 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published
1996
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