Discovery of Molecular Species in Space

NANOCOSMOS has performed a systematic work to identify “unknown” gas-phase species in circumstellar envelopes and interstellar molecular clouds. These species are the carriers of the so-called U-lines or unidentified features. Currently, the team has found more than 1,000 U-lines formed in the photosphere surroundings of the AGB carbon star IRC+10216. We are progressing in the identification of these carriers to complete a spectral catalogue and merge this catalogue into the MADEX radiative transfer code.

Definitely, NANOCOSMOS is characterizing different dust formation places in Space through the observations of molecular lines. So far, the team has already discovered 10 new molecular species in the inner regions of the envelope of IRC+10216 and 32 more in the interstellar medium until April 2021. These findings include the detection for the first time in Space of three new pure hydrocarbon cycles: c-C₃HCCH (ethynyl cyclopropenylidene), c-C₅H₆ (cyclopentadiene), and the polycyclic aromatic hydrocarbon (PAH) c-C₉H₈ (indene). These hydrocarbons could be one of the keystones to elucidate bottom-up mechanisms in the formation of the first aromatic ring in cold molecular clouds, from which large PAHs may grow.

Our discoveries amount to approximately a 20% of known molecules in Space.

The team has made a joint effort on the following objects. IRC+10216 is the archetypal AGB carbon rich star, given its proximity ~ 130 pc, and unpaired molecular richness with more than 80 molecular species prior to NANOCOSMOS. R Leo is one of the closest AGB oxygen rich stars, at a distance of ~ 80 pc. Multi-wavelength molecular observations of this star show no detection of CO₂ despite predictions from chemical models. Y CVn is a carbon rich semi-regular star at ~ 310 pc from the Earth. Its circumnuclear envelope has not been explored in detail mostly due to the lack of sensitive observations. Finally, the Taurus Molecular Cloud -1 or TMC-1, is a cold dark molecular cloud. It presents an interesting carbon-rich chemistry that leads to the formation of long neutral carbon-chain radicals and their anions, as well as cyanopolyynes, and protonated species of abundant large carbon chains.

This menu splits our stunning discoveries into the following entries:

Yebes 40 m radio telescope new broad band receivers and complementary observations with the IRAM 30 m radio telescope. Multiple discoveries of molecular species in IRC+10216 and TMC-1. Further contraints on chemical models.
High-resolution observations of the inner dust formation zone in IRC+10216 with the ALMA radio interferometer. Our analysis is ongoing.
ALMA and IRAM 30m observations of the circumstellar envelopes of AGB stars, cold dark clouds and prestellar cores. These observations include two IRAM molecular surveys of 40 AGB stars. Several discoveries of molecular species in IRC+10216 and in other objects.
High spectral resolution Infrared observations of R Leo with the airborne Stratospheric Observatory for Infrared Astronomy (SOFIA), IRC+10216 with the NASA Infrared Telescope Facility (IRTF) and Y CVn with both observatories.

The team is currently submitting new exciting results from the NANOCOSMOS legacy molecular survey of evolved stars with the Yebes 40m radio telescope. Also, we are interpreting new challenging results from ALMA high resolution observations of IRC+10216 that will boost our previous observations of this source. The best for NANOCOSMOS is yet to come!

IRC+10216: new molecules inventory

3-atoms	4-atoms	5-atoms	6-atoms	7 or more
Si₂C	PH₃	MgC₃N	SiH₃CN	SiH₃CH₃
CaNC	MgCCH		C₄H₂
	NCCP		MgC₄H

Table: Red labels (Yebes 40m); Black (IRAM/ALMA); Green (IRTF/TEXES). See the internal menu pages for more ongoing information on these molecular species. Left: figure thanks to Dr. J. P. Fonfría.

Interstellar Medium: new molecules inventory

2-atoms	3-atoms	4-atoms	5-atoms	6-atoms	7 or more
NS⁺	NCO	HCCO	HC₃O⁺	CH₂CCH	HC₄NC
	HCS	CNCN	HDCCN	H₂CCCS	HCCCH₂CN
	HSC	HCCN	H₂CCS	HC₄N	CH₂CCHCN
	NCS	HCCS	C₄S	C₅S	CH₂CHCCH
		C₃N^_	HC₃S⁺	CH₃CO⁺	HC₅NH⁺
			H₂NCO⁺	C₅N^_	H₂CCCHCCH
					CH₃CH₂CN
					c-C₃HCCH
					c-C₅H₆
					c-C₉H₈ (PAH)

Table: Red labels (Yebes 40m); Black (IRAM/ALMA). See the internal menu pages for more information on these molecular species. Left image: Taurus Molecular Cloud – credit ESO.

OUTSTANDING RESULTS

NANOCOSMOS has successfully achieved significative breakthroughs to address the fundamental problem of cosmic dust formation. We have designed and implemented innovative experimental set-ups and analytical tools well beyond the state-of-the-art. Next we describe the design, construction, implementation and commissioning of these innovations in the dedicated links:

Stardust machine.
AROMA (Astrochemistry Research of Organics with Molecular Analyzer).
PIRENEA 2 (improvement of the “Ion Trap for the Research and Study of New Astrochemical Species”).
GACELA (Gas Cell for Laboratory Astrophysics).
Nanocosmos millimeter broad band receivers for GACELA and the 40m Yebes radio telescope.

NANOCOSMOS is providing new exciting experimental results in different research fields and challenging theoretical grounds. This menu is devoted to the description and analysis of Outstanding Results and potential new challenges.

NANOCOSMOS on top: Press releases from Nature´s “Compression and ablation of the photo-irradiated molecular cloud the Orion Bar”

2016/10/07 / Marcelo Castellanos

The paper “Compression and ablation of the photo-irradiated molecular cloud the Orion Bar” (Goicoechea et al. 2016) recently published in Nature, has put Astrochemistry and NANOCOSMOS in the leading edge forefront of many research institutIons, newspapers and mass media. A few examples can be found below:

ESO Picture of the week

CSIC

L´Observatoire de Paris

Institut de Radioastronomie Millimétrique (IRAM)

Institut de Recherche en Astrophysique et Planétologie (IRAP)

ALMA news

El Mundo newspaper

ABC newspaper

La Vanguardia newspaper

El diario newspaper

ECLA 2016 – webpage open

2016/03/07 / Marcelo Castellanos

The second announcement of the European Conference on Laboratory Astrophysics – “Gas on the Rocks” – ECLA 2016 has been issued today. This conference will be held at the CSIC headquarters (Madrid, Spain) in November 21 – 25, 2016. The webpage is open with all the relevant information.

www.ecla2016.com

More than 30 invited researchers will address new insights on the following science topics:

Comets, asteroids, meteorites and the primitive Solar System nebula: formation and evolution
Protoplanetary disks and planet formation
Planet, Moon, and exoplanet surfaces and atmospheres
The signatures of the evolving interstellar medium
Dense Clouds: the gas-ice interface and molecular complexity
Chemical fingerprints of star formation
The late stages of star evolution: dust formation
Supernovae and shocks: high-energy processing of matter

NANOCOSMOS will organize the ECLA2016 – Gas on the Rocks conference

2015/12/23 / Marcelo Castellanos

The European Conference on Laboratory Astrophysics – Gas on the Rocks (ECLA2016) will be held at the CSIC headquarters in Madrid on November 21 – 25, 2016.

The conference will address the state of the art in laboratory astrophysics within the context of new astrophysical data and to improve communication and collaboration between astrophysicists, physicists and (geo) chemists. Hence, the conference structure will consist of invited talks presenting topics in astrophysics and planetary science and related laboratory astrophysics activities. Contributing talks will be selected to complement the topics from the astrophysical, laboratory, and theoretical/modeling points of view.

More info here