Infrared Study of Fullerene Planetary Nebulae

García-Hernández, D. A.; Villaver, E.; García-Lario, P.; Acosta–Pulido, J. A.; Manchado, A.; Stanghellini, Letizia; Shaw, Richard A.; Cataldo, Franco

doi:10.1088/0004-637x/760/2/107

Cited by 113 publications

(116 citation statements)

References 74 publications

(109 reference statements)

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“…Furthermore, the apparent lack of the strongest electronic transitions of the C 60 molecule in Tc 1 may indicate that we are not seeing emission from isolated, free C 60 molecules, which would explain the variable properties of the mid-IR C 60 spectral features observed in fullerene PNe (Bernard-Salas et al 2012;García-Hernández et al 2012a). At present, the HAC's photochemical processing is the most likely C 60 formation route in the complex circumstellar envelopes of PNe (García-Hernández et al 2012a;Bernard-Salas et al 2012;Micelotta et al 2012).…”

Section: Fullerenes -Dib Connectionmentioning

confidence: 99%

“…However, we cannot discard that the line of sight to Tc 1 may not intersect the fullerene-rich regions of the circumstellar shell (e.g., if the fullerenes may be formed in clumps). On the other hand, one can speculate that the strongest 3980 Å C 60 band -perhaps the other electronic bands, too -could be suppresed if the fullerenes are in the solid-state phase (e.g., Evans et al 2012;García-Hernández et al 2012a). However, a laboratory spectrum of C 60 dissolved in n-hexane displays the same transitions seen in the gas-phase (Cataldo, priv.…”

Section: Electronic Transitions Of Neutral C 60mentioning

confidence: 99%

“…At present, the HAC's photochemical processing is the most likely C 60 formation route in the complex circumstellar envelopes of PNe (García-Hernández et al 2012a;Bernard-Salas et al 2012;Micelotta et al 2012). Larger fullerenes may grow from pre-existing C 60 molecules (Dunk et al 2012) that may be supplied by the photochemical processing of HAC dust, opening the possibility of forming other fullerene-based molecules such as buckyonions and fullerene adducts.…”

Section: Fullerenes -Dib Connectionmentioning

confidence: 99%

“…However, the presence of fullerenes in astrophysical environments has been a matter of debate until recently when Spitzer observations have provided evidence for C 60 and C 70 fullerenes from planetary nebulae (PNe; Cami et al 2010;García-Hernández et al 2010, 2011a, 2012a, reflection nebulae (Sellgren et al 2010) and the least H-deficient R Coronae Borealis (RCB) Appendix A is available in electronic form at http://www.aanda.org stars (García-Hernández et al 2011b,c). None of these environments is highly hydrogen-deficient.…”

Section: Introductionmentioning

confidence: 99%

“…None of these environments is highly hydrogen-deficient. Furthermore, the recent detection of C 60 fullerenes in PNe with normal H-abundances (García-Hernández et al 2010, 2011a, 2012a suggests that large fullerenes may be formed as decomposition products of hydrogenated amorphous carbon (HAC) dust and that fullerenes may be not so exotic and can form under conditions that are common to essentially all solar-like stars at the end of their lives.…”

Section: Introductionmentioning

confidence: 99%

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Diffuse interstellar bands in fullerene planetary nebulae: the fullerenes – diffuse interstellar bands connection

García-Hernández

Díaz-Luis

2013

A&A

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We present high-resolution (R ∼ 15 000) VLT/UVES optical spectra of two planetary nebulae (PNe; Tc 1 and M 1-20) where C 60 (and C 70 ) fullerenes have already been found. These spectra are of high quality (S/N > 300) for PN Tc 1, which permits us to search for the expected electronic transitions of neutral C 60 and diffuse interstellar bands (DIBs). Surprisingly, we report the non-detection of the most intense optical bands of C 60 in Tc 1, although this could be explained by the low C 60 column density estimated from the C 60 infrared bands if the C 60 emission peaks far away from the central star. The strongest and most common DIBs in both fullerene PNe are normal for their reddening. Interestingly, the very broad 4428 Å DIB and the weaker 6309 Å DIB are found to be unusually intense in Tc 1. We also report the detection of a new broad (FWHM ∼ 5 Å) unidentified band at ∼6525 Å. We propose that the 4428 Å DIB (probably also the 6309 Å DIB and the new 6525 Å band) may be related to the presence of larger fullerenes (e.g., C 80 , C 240 , C 320 , and C 540 ) and buckyonions (multishell fullerenes such as C 60 @C 240 and C 60 @C 240 @C 540 ) in the circumstellar envelope of Tc 1.

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Section: Fullerenes -Dib Connectionmentioning

confidence: 99%

Section: Electronic Transitions Of Neutral C 60mentioning

confidence: 99%

Section: Fullerenes -Dib Connectionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Diffuse interstellar bands in fullerene planetary nebulae: the fullerenes – diffuse interstellar bands connection

García-Hernández

Díaz-Luis

2013

A&A

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Chemie mit Überschall: 30 Jahre astrochemische Forschung und künftige Herausforderungen

et al. 2017

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Das interstellare Medium ist für uns von großem Interesse. Hier werden Sterne und Planeten geboren und wahrscheinlich sind von hier molekulare Vorstufen des Lebens zur Erde gelangt. Um die chemischen Wege zur Bildung von Sternen, Planeten und biologischen Molekülen zu verstehen, sollten astronomische Beobachtungen, astrochemische Modellierung und Laborastrochemie Hand in Hand arbeiten. Hier stellen wir Laborexperimente vor, die sich der Untersuchung der Reaktionsdynamik von astrochemisch interessanten Spezies bei Temperaturen des interstellaren Mediums widmen und die unter Verwendung von CRESU, einer der populärsten Techniken in diesem Bereich, durchgeführt wurden. Außerdem diskutieren wir neue technische Entwicklungen und wissenschaftliche Ideen zur CRESU, die unser Verständnis der astrochemischen Geschichte und Zukunft unseres Universums einen Schritt weiter bringen könnten.

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Uniform Supersonic Chemical Reactors: 30 Years of Astrochemical History and Future Challenges

et al. 2017

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The interstellar medium is of great interest to us as the place where stars and planets are born and from where, probably, the molecular precursors of life came to Earth. Astronomical observations, astrochemical modeling, and laboratory astrochemistry should go hand in hand to understand the chemical pathways to the formation of stars, planets, and biological molecules. We review here laboratory experiments devoted to investigations on the reaction dynamics of species of astrochemical interest at the temperatures of the interstellar medium and which were performed by using one of the most popular techniques in the field, CRESU. We discuss new technical developments and scientific ideas for CRESU, which, if realized, will bring us one step closer to understanding of the astrochemical history and the future of our universe.

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Infrared Study of Fullerene Planetary Nebulae

Cited by 113 publications

References 74 publications

Diffuse interstellar bands in fullerene planetary nebulae: the fullerenes – diffuse interstellar bands connection

Diffuse interstellar bands in fullerene planetary nebulae: the fullerenes – diffuse interstellar bands connection

Chemie mit Überschall: 30 Jahre astrochemische Forschung und künftige Herausforderungen

Uniform Supersonic Chemical Reactors: 30 Years of Astrochemical History and Future Challenges

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