Dust in Supernovae and Supernova Remnants I: Formation Scenarios

Sarangi, Aditya Narayan; Matsuura, M.; Micelotta, Elisabetta R.

doi:10.1007/s11214-018-0492-7

Cited by 52 publications

(68 citation statements)

References 233 publications

(306 reference statements)

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“…In line with recent studies of other SNRs, we conclude that the Crab's efficient dust condensation (8-12%) provides further evidence for a scenario whereby supernovae could provide considerable contributions to the interstellar dust budgets in galaxies. In the future, with upcoming facilities such as the James Webb Space Telescope (JWST, Gardner et al 2006), SPICA (Roelfsema et al 2018) and the Origins Space Telescope, we will be able to expand on the current sample of PWNe with dust mass detections and, at the same time, look for dust features characteristic of the type of grain species formed in PWNe, which will help to further bring down uncertainties on current supernova dust masses and to provide observational input to test the nucleation of various grain species during the first couple of hundred days post-explosion in the current generation of core-collapse supernova dust models (see Sarangi et al 2018 for a recent review).…”

Section: Discussionmentioning

confidence: 99%

The dust content of the Crab Nebula

Looze

Barlow

Bandiera

et al. 2019

Monthly Notices of the Royal Astronomical Society

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We have modelled the near-infrared to radio images of the Crab Nebula with a Bayesian SED model to simultaneously fit its synchrotron, interstellar and supernova dust emission. We infer an interstellar dust extinction map with an average A V = 1.08 ± 0.38 mag, consistent with a small contribution ( 22%) to the Crab's overall infrared emission. The Crab's supernova dust mass is estimated to be between 0.032 and 0.049 M (for amorphous carbon grains) with an average dust temperature T dust =41±3 K, corresponding to a dust condensation efficiency of 8-12%. This revised dust mass is up to an order of magnitude lower than some previous estimates, which can be attributed to our different interstellar dust corrections, lower SPIRE flux densities, and higher dust temperatures than were used in previous studies. The dust within the Crab is predominantly found in dense filaments south of the pulsar, with an average V band dust extinction of A V = 0.20 − 0.39 mag, consistent with recent optical dust extinction studies. The modelled synchrotron power-law spectrum is consistent with a radio spectral index α radio =0.297±0.009 and an infrared spectral index α IR =0.429±0.021. We have identified a millimetre excess emission in the Crab's central regions, and argue that it most likely results from two distinct populations of synchrotron emitting particles. We conclude that the Crab's efficient dust condensation (8-12%) provides further evidence for a scenario where supernovae can provide substantial contributions to the interstellar dust budgets in galaxies.

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Section: Discussionmentioning

confidence: 99%

The dust content of the Crab Nebula

Looze

Barlow

Bandiera

et al. 2019

Monthly Notices of the Royal Astronomical Society

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“…1 illustrates a sample of the experimentally observed bands (Tanabashi et al 2007;Bornhauser et al 2015;Macrae 2016;Furtenbacher et al 2016) connecting eleven singlet, triplet, and quintet states of the C 2 molecule that contribute to the overall radiative association rate coefficient for this molecule. In the ejecta of SN1987A and other core-collapse supernovae, CO and SiO were detected, see (Cherchneff & Sarangi 2011;Sarangi et al 2018), through fundamental (∆ν = 1) bands 1 of ground molecular electronic states allowing observational tests of molecular formation models (Liu et al 1992;Liu & Dalgarno 1995;Cherchneff & Sarangi 2011;Sarangi & Cherchneff 2013;Rho et al 2018)-dicarbon, however, lacks a permanent electric dipole moment and analogous vibrational transitions (fundamental bands) do not exist, making reliable theoretical predictions of rate coefficients imperative. Moreover, recent three-dimensional mapping of CO and SiO in the SN 1987A core ejecta with the Atacama Large Millimeter/submillimeter Array (ALMA) shows a clumpy mixed structure calling for improvements beyond one-dimension in hydrodynamical and chemical modeling of molecular formation (Abellán et al 2017); a reliable description of dicarbide formation might improve such future calculations.…”

Section: Introductionmentioning

confidence: 99%

“…Moreover, recent three-dimensional mapping of CO and SiO in the SN 1987A core ejecta with the Atacama Large Millimeter/submillimeter Array (ALMA) shows a clumpy mixed structure calling for improvements beyond one-dimension in hydrodynamical and chemical modeling of molecular formation (Abellán et al 2017); a reliable description of dicarbide formation might improve such future calculations. Finally, understanding the origins of cosmic dust and the roles played by supernovae in contributing to extragalactic dust depends on progress in modeling dust formation (Sarangi et al 2018;Sluder et al 2018).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Dicarbon Formation in Collisions of Two Carbon Atoms

Babb¹,

Smyth

McLaughlin

2019

ApJ

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Radiative association cross sections and rates are computed, using a quantum approach, for the formation of C 2 molecules (dicarbon) during the collision of two ground state C( 3 P) atoms. We find that transitions originating in the C 1 Π g , d 3 Π g , and 1 5 Π u states are the main contributors to the process. The results are compared and contrasted with previous results obtained from a semi-classical approximation. New ab initio potential curves and transition dipole moment functions have been obtained for the present work using the multi-reference configuration interaction approach with the Davidson correction (MRCI+Q) and aug-cc-pCV5Z basis sets, substantially increasing the available molecular data on dicarbon. Applications of the current computations to various astrophysical environments and laboratory studies are briefly discussed focusing on these rates.1 CO was also detected in the first overtone band (∆ν = 2). In SN 1987A individual rotational lines of CO and of SiO were detected at late epoch, see Abellán et al. (2017);Sarangi et al. (2018).

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“…The goal of this review, which is the second paper of a series of two, is to provide the state of the art about the processing and survival of dust inside supernova remnants, in terms of theoretical modelling and comparison with observations. The theoretical and observational aspects related to the formation and detection of dust in supernovae are discussed in our companion Paper I (Sarangi et al 2018).…”

Section: Introductionmentioning

confidence: 99%