作为尘埃指标的星际漫射带:三维地图的贡献

IF 5.4 2区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Astronomy & Astrophysics Pub Date : 2024-10-29 DOI:10.1051/0004-6361/202451657
R. Lallement, J. L. Vergely, N. L. J. Cox
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Along with laboratory identifications of carriers, these properties may shed light on the formation and evolution of this organic matter. They may also help to model dust emission and absorption properties in a more detailed way.<i>Methods.<i/> We used the 3D maps of 862 nm DIBs and of dust extinction, as well as available DIB equivalent width (EW) catalogues and published measurements of parameters characterizing the dust extinction law and the dust emission. We studied the relationships between the extinction-normalized 862 nm DIB EW and the extinction level, the total-to-selective extinction ratio <i>R<sub>V<sub/><i/>, and the dust far-IR emission spectral index <i>β.<i/> We re-visited the link between several DIBs and the UV absorption bump at 220 nm.<i>Results.<i/> The ratio of the 862 nm DIB carrier density to the optical extinction density (DIB<sub>norm<sub/><sup>862<sup/>) is increasing in low-density clouds, confirming with local values the trend seen in the LOS data. In both cases, the coefficients of a fitted power law fall within the range of those measured towards SDSS high-latitude targets for 20 different bands, ranking this DIB among those with a high increase, above that of the broad 4430 Å DIB. This is consistent with the recent measurement of a larger scale height above the Plane for the 862 nm DIB compared to that of the 4430 Å DIB. Using map-integrated 862 nm DIB EWs and extinctions along the paths to APOGEE targets with published proxies <i>R<i/>′<sub>V<sub/> for the total-to-selective extinction ratio, we found that, despite a large scatter, DIB<sub>norm<sub/><sup>862<sup/> is positively correlated with <i>R<i/>′<sub>V<sub/> for those stars with low to moderate extinctions (<i>A<sub>V<sub/><i/> = 0.2 to 2–3 mag). Independently, using stars from the 862 nm DIB catalogue located outside the disk and for the same regime of extinction, DIB<sub>norm<sub/><sup>862<sup/> is found to be globally anti-correlated with the Planck opacity spectral index <i>β.<i/> This is consistent with the observed anti-correlation between <i>β<i/> and <i>R<i/>′<sub>V<sub/>. In the light of a recent result on the variability of the carbon/silicate ratio in dust grains as a source of this anti-correlation, it suggests that DIB<sub>norm<sub/><sup>862<sup/> increases with the fraction of carbonaceous to silicate grains in the co-located dust, in agreement with the carbonaceous nature of DIB carriers and recent evidences for a spatial correlation between DIB<sub>norm<sub/><sup>862<sup/> and the fluxes of carbon-rich ejecta of asymptotic giant branch (AGB) stars. At higher extinction both trends disappear, and there is evidence for a trend reversal. Regarding the link between the height of the 220 nm UV absorption bump and extinction-normalized EWs of DIBs, we found that two factors explain the absence of previous clear results: the correlation disappears when we move from <i>σ<i/>-type to <i>ζ<i/>-type DIBs and/or from single-cloud LOSs to paths crossing multiple clouds distant from each other; <i>ζ<i/>-type bands can be used to predict low and high values of the bump height, provided one adds a correcting factor linked to the ambient radiation field (e.g. the 5780/5797 DIB ratio). We show examples of simple models of the bump height based on the 5780 Å band, the 5850 Å band and the 5780/5797 DIB ratio. We also found an anti-correlation between DIB<sub>norm<sub/> and the width of the bump, which similarly disappears from <i>σ<i/>-type to <i>ζ<i/>-type DIBs. This suggests that a fraction of the bump is generated outside the dense molecular clouds.<i>Conclusions.<i/> There are complex relationships between DIBs and dust; however, massive measurements of DIBs and extinction and the derived 3D maps may provide some constraints on the density, the nature, and the contribution to extinction and emission of the co-located dust. This requires large stellar spectroscopic surveys and space-based measurements of UV extinction.","PeriodicalId":8571,"journal":{"name":"Astronomy & Astrophysics","volume":"19 1","pages":""},"PeriodicalIF":5.4000,"publicationDate":"2024-10-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Diffuse interstellar bands as dust indicators: The contribution from 3D maps\",\"authors\":\"R. Lallement, J. L. Vergely, N. L. J. 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In both cases, the coefficients of a fitted power law fall within the range of those measured towards SDSS high-latitude targets for 20 different bands, ranking this DIB among those with a high increase, above that of the broad 4430 Å DIB. This is consistent with the recent measurement of a larger scale height above the Plane for the 862 nm DIB compared to that of the 4430 Å DIB. Using map-integrated 862 nm DIB EWs and extinctions along the paths to APOGEE targets with published proxies <i>R<i/>′<sub>V<sub/> for the total-to-selective extinction ratio, we found that, despite a large scatter, DIB<sub>norm<sub/><sup>862<sup/> is positively correlated with <i>R<i/>′<sub>V<sub/> for those stars with low to moderate extinctions (<i>A<sub>V<sub/><i/> = 0.2 to 2–3 mag). 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引用次数: 0

摘要

背景。根据盖亚视差和星际漫射带(DIB)目录,计算了 862 nm 星际漫射带(DIB)载流子的三维(3D)分布,同时还计算了尘埃消光密度的三维地图。三维地图除了提供视线(LOS)综合数量外,还提供了有关结构分布的局部诊断和信息,并使我们能够关注研究较少的低消光区域。通过对任何给定路径上的 DIB 和消光的估计,它们可以与其他星表进行交叉匹配。我们重新研究了 DIB 载流子密度与空间共定位尘埃的吸收和发射特性之间的关系。这些特性与实验室鉴定的载流子一起,可以揭示这种有机物质的形成和演变。它们还有助于更详细地模拟尘埃的发射和吸收特性。我们使用了 862 nm DIB 和尘埃消光的三维地图,以及现有的 DIB 等效宽度(EW)目录和已公布的尘埃消光规律和尘埃发射特征参数的测量值。我们研究了消光归一化的 862 nm DIB EW 与消光水平、总消光与选择性消光比 RV 以及尘埃远红外发射光谱指数 β 之间的关系。在低密度云中,862 nm DIB载流子密度与光消光密度(DIBnorm862)之比在增加,这与 LOS 数据中的局部值趋势相吻合。在这两种情况下,拟合幂律的系数都在 20 个不同波段对 SDSS 高纬度目标所测得的系数范围之内,因此该 DIB 属于增幅较大的一类,高于宽 4430 Å DIB 的增幅。这与最近测量到的 862 nm DIB 在平面上的尺度高度比 4430 Å DIB 的尺度高度大是一致的。利用地图整合的 862 nm DIB EWs 和 APOGEE 目标路径上的消光,以及已发表的总消光与选择性消光比的代用指标 R′V,我们发现,尽管存在很大的散差,但对于那些低度到中度消光(AV = 0.2 到 2-3 mag)的恒星来说,DIBnorm862 与 R′V 呈正相关。另外,利用位于盘外的 862 nm DIB 目录中的恒星,在相同的消光机制下,发现 DIBnorm862 与普朗克不透光光谱指数 β 在全局上是反相关的。根据最近的一项关于尘粒中碳/硅酸盐比例的变化是这种反相关性的来源的研究结果,它表明 DIBnorm862 随同位尘粒中碳硅酸盐比例的增加而增加,这与 DIB 载体的碳质性质以及最近关于 DIBnorm862 与渐近巨枝(AGB)恒星富碳喷出物通量之间空间相关性的证据相一致。在更高的消光条件下,这两种趋势都消失了,而且有证据表明趋势发生了逆转。关于 220 nm 紫外吸收凸起高度与 DIB 的消光归一化 EW 之间的联系,我们发现有两个因素可以解释之前没有明确结果的原因:当我们从 σ 型 DIB 到 ζ 型 DIB,和/或从单云 LOS 到穿越多个相距甚远的云的路径时,相关性就消失了;ζ 型波段可用于预测凸起高度的低值和高值,但要加上一个与环境辐射场相关的校正因子(如 5780/5797)。例如 5780/5797 DIB 比值)。我们举例说明了基于 5780 Å 波段、5850 Å 波段和 5780/5797 DIB 比值的凸起高度简单模型。我们还发现了 DIBnorm 与凸起宽度之间的反相关性,从 σ 型 DIB 到 ζ 型 DIB,这种反相关性同样消失了。这表明有一部分凸起是在致密分子云之外产生的。DIBs和尘埃之间的关系很复杂;然而,对DIBs和消光的大规模测量以及衍生的三维地图可以提供一些关于同位尘埃的密度、性质以及对消光和发射的贡献的约束。这需要大型恒星光谱测量和紫外线消光的天基测量。
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Diffuse interstellar bands as dust indicators: The contribution from 3D maps
Context. Three-dimensional (3D) distributions of the 862 nm diffuse interstellar band (DIB) carrier have been computed based on Gaia parallaxes and DIB catalogues, in parallel with 3D maps of dust extinction density. Three-dimensional maps provide local diagnostics and information on the distribution of structures in addition to line-of-sight (LOS) integrated quantities, and allow us to focus on poorly studied low-extinction areas. They make cross-matching with other catalogues possible through estimates of the DIB and extinction along any given path.Aims. We re-examined the relationships between the density of DIB carriers and the absorption and emission properties of spatially co-located dust. Along with laboratory identifications of carriers, these properties may shed light on the formation and evolution of this organic matter. They may also help to model dust emission and absorption properties in a more detailed way.Methods. We used the 3D maps of 862 nm DIBs and of dust extinction, as well as available DIB equivalent width (EW) catalogues and published measurements of parameters characterizing the dust extinction law and the dust emission. We studied the relationships between the extinction-normalized 862 nm DIB EW and the extinction level, the total-to-selective extinction ratio RV, and the dust far-IR emission spectral index β. We re-visited the link between several DIBs and the UV absorption bump at 220 nm.Results. The ratio of the 862 nm DIB carrier density to the optical extinction density (DIBnorm862) is increasing in low-density clouds, confirming with local values the trend seen in the LOS data. In both cases, the coefficients of a fitted power law fall within the range of those measured towards SDSS high-latitude targets for 20 different bands, ranking this DIB among those with a high increase, above that of the broad 4430 Å DIB. This is consistent with the recent measurement of a larger scale height above the Plane for the 862 nm DIB compared to that of the 4430 Å DIB. Using map-integrated 862 nm DIB EWs and extinctions along the paths to APOGEE targets with published proxies RV for the total-to-selective extinction ratio, we found that, despite a large scatter, DIBnorm862 is positively correlated with RV for those stars with low to moderate extinctions (AV = 0.2 to 2–3 mag). Independently, using stars from the 862 nm DIB catalogue located outside the disk and for the same regime of extinction, DIBnorm862 is found to be globally anti-correlated with the Planck opacity spectral index β. This is consistent with the observed anti-correlation between β and RV. In the light of a recent result on the variability of the carbon/silicate ratio in dust grains as a source of this anti-correlation, it suggests that DIBnorm862 increases with the fraction of carbonaceous to silicate grains in the co-located dust, in agreement with the carbonaceous nature of DIB carriers and recent evidences for a spatial correlation between DIBnorm862 and the fluxes of carbon-rich ejecta of asymptotic giant branch (AGB) stars. At higher extinction both trends disappear, and there is evidence for a trend reversal. Regarding the link between the height of the 220 nm UV absorption bump and extinction-normalized EWs of DIBs, we found that two factors explain the absence of previous clear results: the correlation disappears when we move from σ-type to ζ-type DIBs and/or from single-cloud LOSs to paths crossing multiple clouds distant from each other; ζ-type bands can be used to predict low and high values of the bump height, provided one adds a correcting factor linked to the ambient radiation field (e.g. the 5780/5797 DIB ratio). We show examples of simple models of the bump height based on the 5780 Å band, the 5850 Å band and the 5780/5797 DIB ratio. We also found an anti-correlation between DIBnorm and the width of the bump, which similarly disappears from σ-type to ζ-type DIBs. This suggests that a fraction of the bump is generated outside the dense molecular clouds.Conclusions. There are complex relationships between DIBs and dust; however, massive measurements of DIBs and extinction and the derived 3D maps may provide some constraints on the density, the nature, and the contribution to extinction and emission of the co-located dust. This requires large stellar spectroscopic surveys and space-based measurements of UV extinction.
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来源期刊
Astronomy & Astrophysics
Astronomy & Astrophysics 地学天文-天文与天体物理
CiteScore
10.20
自引率
27.70%
发文量
2105
审稿时长
1-2 weeks
期刊介绍: Astronomy & Astrophysics is an international Journal that publishes papers on all aspects of astronomy and astrophysics (theoretical, observational, and instrumental) independently of the techniques used to obtain the results.
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