A Three-Dimensional Analytical Model of the Interstellar Extinction within the Nearest Kiloparsec
| Autor: | Gontcharov, G. A., Mosenkov, A. V., Savchenko, S. S., Il'in, V. B., Marchuk, A. A., Smirnov, A. A., Usachev, P. A., Polyakov, D. M., Hebdon, N. |
|---|---|
| Rok vydání: | 2023 |
| Předmět: | |
| Zdroj: | Astronomy Letters, 2022, 48, 578-600 |
| Druh dokumentu: | Working Paper |
| DOI: | 10.1134/S1063773722100024 |
| Popis: | We present a new version of our analytical model of the spatial interstellar extinction variations within the nearest kiloparsec. This model treats the 3D dust distribution as a superposition of three overlapping layers: (1) the layer along the Galactic midplane, (2) the layer in the Gould Belt, and (3) the layer passing through the Cepheus and Chamaeleon dust cloud complexes. In each layer the dust density decreases exponentially with increasing distance from the midplane of the layer. In addition, there are sinusoidal longitudinal extinction variations along the midplane of each layer. We have found the most probable values of 29 parameters of our model using four data sets: the 3D stellar reddening maps by Gontcharov (2017), Lallement et al. (2019), and Green et al. (2019) and the extinctions inferred by Anders et al. (2022) for 993291 giants from the Gaia EDR3. All of the data give similar estimates of the model parameters. The extinction for a star or a point in space is predicted by our model with an accuracy from $\sigma(A_\mathrm{V})=0.07$ to 0.37 for high and low Galactic latitudes, respectively. The natural fluctuations of the dust medium dominate in these values. When ignoring the fluctuations of the medium, the average extinction for an extended object (a galaxy, a star cluster, a dust cloud) or a small region of space is predicted by our model with an accuracy from $\sigma(A_\mathrm{V})=0.04$ to 0.15 for high and low Galactic latitudes, respectively. Green et al. (2019) and Anders et al. (2022) give in unison an estimate of $A_\mathrm{V}=0.12^m$ for the extinction at high latitudes across the whole Galactic dust half-layer above or below the Sun with the natural fluctuations of the medium $\sigma(A_\mathrm{V})=0.06^m$. Our model is a step to explain how a substantial amount of dust ended up far from the Galactic midplane. Comment: Published in Astronomy Letters, 2022, 48, 578-600 |
| Databáze: | arXiv |
| Externí odkaz: |
|