The need for multicomponent dust attenuation in modeling nebular emission : constraints from SDSS-IV MaNGA
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2023 |
| Outros Autores: | , , , , , , , , , , , , , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | Repositório Institucional da UFRGS |
| Texto Completo: | http://hdl.handle.net/10183/262831 |
Resumo: | A fundamental assumption adopted in nearly every extragalactic study that analyzes optical emission lines is that the attenuation of different emission lines can be described by a single attenuation curve, scaled by a single reddening parameter, usually E(B − V). Here we show this assumption fails in many cases with important implications for derived results. We developed a new method to measure the differential nebular attenuation among three kinds of transitions: the Balmer lines of hydrogen; high-ionization transitions (>13.6 eV) including [Ne iii], [O iii], and [S iii]; and low-ionization transitions (.13.6 eV) including [O ii], [N ii], and [S ii]. This method bins the observed data in a multidimensional space spanned by attenuation-insensitive line ratios. Within each small bin, the variations in nebular parameters such as the metallicity and ionization parameter are negligible compared to the variation in the nebular attenuation. This allowed us to measure the nebular attenuation using both forbidden lines and Balmer lines. We applied this method to a sample of 2.4 million star-forming (SF) spaxels from the Mapping Nearby Galaxies at Apache Point Observatory (MaNGA) survey. We found that the attenuation of high ionization lines and Balmer lines can be well described by a single Fitzpatrick (1999, PASP, 111, 63) extinction curve with RV = 3.1. However, no single attenuation curve can simultaneously account for these transitions and the derived attenuation of low-ionization lines. This strongly suggests that different lines have different effective attenuations, likely because spectroscopy at hundreds of parsecs to kiloparsecs of resolution mixes multiple physical regions that exhibit different intrinsic line ratios and different levels of attenuation. As a result, the assumption that different lines follow the same attenuation curve breaks down. Using a single attenuation curve determined by Balmer lines to correct attenuation-sensitive forbidden line ratios could bias the nebular parameters derived by 0.06–0.25 dex at AV = 1, depending on the details of the dust attenuation model. Observations of a statistically large sample of H ii regions with high spatial resolutions and large spectral coverage are vital for improved modeling and deriving accurate corrections for this effect. |
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Ji, XihanYan, RenbinBundy, KevinBoquien, MédéricSchaefer, Adam L.Belfiore, FrancescoBershady, Matthew A.Drory, NivLi, ChengWestfall, Kyle B.Lin, ZesenBizyaev, D.Law, David R.Riffel, RogérioRiffel, Rogemar André2023-07-29T03:35:45Z20230004-6361http://hdl.handle.net/10183/262831001171264A fundamental assumption adopted in nearly every extragalactic study that analyzes optical emission lines is that the attenuation of different emission lines can be described by a single attenuation curve, scaled by a single reddening parameter, usually E(B − V). Here we show this assumption fails in many cases with important implications for derived results. We developed a new method to measure the differential nebular attenuation among three kinds of transitions: the Balmer lines of hydrogen; high-ionization transitions (>13.6 eV) including [Ne iii], [O iii], and [S iii]; and low-ionization transitions (.13.6 eV) including [O ii], [N ii], and [S ii]. This method bins the observed data in a multidimensional space spanned by attenuation-insensitive line ratios. Within each small bin, the variations in nebular parameters such as the metallicity and ionization parameter are negligible compared to the variation in the nebular attenuation. This allowed us to measure the nebular attenuation using both forbidden lines and Balmer lines. We applied this method to a sample of 2.4 million star-forming (SF) spaxels from the Mapping Nearby Galaxies at Apache Point Observatory (MaNGA) survey. We found that the attenuation of high ionization lines and Balmer lines can be well described by a single Fitzpatrick (1999, PASP, 111, 63) extinction curve with RV = 3.1. However, no single attenuation curve can simultaneously account for these transitions and the derived attenuation of low-ionization lines. This strongly suggests that different lines have different effective attenuations, likely because spectroscopy at hundreds of parsecs to kiloparsecs of resolution mixes multiple physical regions that exhibit different intrinsic line ratios and different levels of attenuation. As a result, the assumption that different lines follow the same attenuation curve breaks down. Using a single attenuation curve determined by Balmer lines to correct attenuation-sensitive forbidden line ratios could bias the nebular parameters derived by 0.06–0.25 dex at AV = 1, depending on the details of the dust attenuation model. Observations of a statistically large sample of H ii regions with high spatial resolutions and large spectral coverage are vital for improved modeling and deriving accurate corrections for this effect.application/pdfengAstronomy and astrophysics. Les Ulis. Vol. 670 (Feb. 2023), A125, 28 p.Poeira cosmicaExtinção interestelarMeio interestelarDustExtinctionH II regionsISM: lines and bandsThe need for multicomponent dust attenuation in modeling nebular emission : constraints from SDSS-IV MaNGAEstrangeiroinfo:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFRGSinstname:Universidade Federal do Rio Grande do Sul (UFRGS)instacron:UFRGSTEXT001171264.pdf.txt001171264.pdf.txtExtracted Texttext/plain161033http://www.lume.ufrgs.br/bitstream/10183/262831/2/001171264.pdf.txtf3b02d13ca8b9324e3d163e325a59ae1MD52ORIGINAL001171264.pdfTexto completo (inglês)application/pdf5213581http://www.lume.ufrgs.br/bitstream/10183/262831/1/001171264.pdfeebff08e2223384ccb2d0e3955c413cfMD5110183/2628312023-07-30 03:46:26.805075oai:www.lume.ufrgs.br:10183/262831Repositório de PublicaçõesPUBhttps://lume.ufrgs.br/oai/requestopendoar:2023-07-30T06:46:26Repositório Institucional da UFRGS - Universidade Federal do Rio Grande do Sul (UFRGS)false |
| dc.title.pt_BR.fl_str_mv |
The need for multicomponent dust attenuation in modeling nebular emission : constraints from SDSS-IV MaNGA |
| title |
The need for multicomponent dust attenuation in modeling nebular emission : constraints from SDSS-IV MaNGA |
| spellingShingle |
The need for multicomponent dust attenuation in modeling nebular emission : constraints from SDSS-IV MaNGA Ji, Xihan Poeira cosmica Extinção interestelar Meio interestelar Dust Extinction H II regions ISM: lines and bands |
| title_short |
The need for multicomponent dust attenuation in modeling nebular emission : constraints from SDSS-IV MaNGA |
| title_full |
The need for multicomponent dust attenuation in modeling nebular emission : constraints from SDSS-IV MaNGA |
| title_fullStr |
The need for multicomponent dust attenuation in modeling nebular emission : constraints from SDSS-IV MaNGA |
| title_full_unstemmed |
The need for multicomponent dust attenuation in modeling nebular emission : constraints from SDSS-IV MaNGA |
| title_sort |
The need for multicomponent dust attenuation in modeling nebular emission : constraints from SDSS-IV MaNGA |
| author |
Ji, Xihan |
| author_facet |
Ji, Xihan Yan, Renbin Bundy, Kevin Boquien, Médéric Schaefer, Adam L. Belfiore, Francesco Bershady, Matthew A. Drory, Niv Li, Cheng Westfall, Kyle B. Lin, Zesen Bizyaev, D. Law, David R. Riffel, Rogério Riffel, Rogemar André |
| author_role |
author |
| author2 |
Yan, Renbin Bundy, Kevin Boquien, Médéric Schaefer, Adam L. Belfiore, Francesco Bershady, Matthew A. Drory, Niv Li, Cheng Westfall, Kyle B. Lin, Zesen Bizyaev, D. Law, David R. Riffel, Rogério Riffel, Rogemar André |
| author2_role |
author author author author author author author author author author author author author author |
| dc.contributor.author.fl_str_mv |
Ji, Xihan Yan, Renbin Bundy, Kevin Boquien, Médéric Schaefer, Adam L. Belfiore, Francesco Bershady, Matthew A. Drory, Niv Li, Cheng Westfall, Kyle B. Lin, Zesen Bizyaev, D. Law, David R. Riffel, Rogério Riffel, Rogemar André |
| dc.subject.por.fl_str_mv |
Poeira cosmica Extinção interestelar Meio interestelar |
| topic |
Poeira cosmica Extinção interestelar Meio interestelar Dust Extinction H II regions ISM: lines and bands |
| dc.subject.eng.fl_str_mv |
Dust Extinction H II regions ISM: lines and bands |
| description |
A fundamental assumption adopted in nearly every extragalactic study that analyzes optical emission lines is that the attenuation of different emission lines can be described by a single attenuation curve, scaled by a single reddening parameter, usually E(B − V). Here we show this assumption fails in many cases with important implications for derived results. We developed a new method to measure the differential nebular attenuation among three kinds of transitions: the Balmer lines of hydrogen; high-ionization transitions (>13.6 eV) including [Ne iii], [O iii], and [S iii]; and low-ionization transitions (.13.6 eV) including [O ii], [N ii], and [S ii]. This method bins the observed data in a multidimensional space spanned by attenuation-insensitive line ratios. Within each small bin, the variations in nebular parameters such as the metallicity and ionization parameter are negligible compared to the variation in the nebular attenuation. This allowed us to measure the nebular attenuation using both forbidden lines and Balmer lines. We applied this method to a sample of 2.4 million star-forming (SF) spaxels from the Mapping Nearby Galaxies at Apache Point Observatory (MaNGA) survey. We found that the attenuation of high ionization lines and Balmer lines can be well described by a single Fitzpatrick (1999, PASP, 111, 63) extinction curve with RV = 3.1. However, no single attenuation curve can simultaneously account for these transitions and the derived attenuation of low-ionization lines. This strongly suggests that different lines have different effective attenuations, likely because spectroscopy at hundreds of parsecs to kiloparsecs of resolution mixes multiple physical regions that exhibit different intrinsic line ratios and different levels of attenuation. As a result, the assumption that different lines follow the same attenuation curve breaks down. Using a single attenuation curve determined by Balmer lines to correct attenuation-sensitive forbidden line ratios could bias the nebular parameters derived by 0.06–0.25 dex at AV = 1, depending on the details of the dust attenuation model. Observations of a statistically large sample of H ii regions with high spatial resolutions and large spectral coverage are vital for improved modeling and deriving accurate corrections for this effect. |
| publishDate |
2023 |
| dc.date.accessioned.fl_str_mv |
2023-07-29T03:35:45Z |
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2023 |
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Estrangeiro info:eu-repo/semantics/article |
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info:eu-repo/semantics/publishedVersion |
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0004-6361 |
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Astronomy and astrophysics. Les Ulis. Vol. 670 (Feb. 2023), A125, 28 p. |
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