2011A&A...527A..86V


C.D.S. - SIMBAD4 rel 1.7 - 2020.07.04CEST15:07:17

2011A&A...527A..86V - Astronomy and Astrophysics, volume 527A, 86-86 (2011/3-1)

3D numerical simulations of photodissociated and photoionized disks.

VASCONCELOS M.J., CERQUEIRA A.H. and RAGA A.C.

Abstract (from CDS):

In this work we study the influence of the UV radiation field of a massive star on the evolution of a disklike mass of gas and dust around a nearby star. This system has similarities with the proplyds seen in Orion. We study disks with different inclinations and distances from the source, performing fully 3D numerical simulations. We use the YGUAZU-A adaptative grid code modified to account for EUV/FUV fluxes and non-spherical mass distributions. We treat H and C photoionization in order to reproduce the ionization fronts and photodissociation regions observed in proplyds. We also incorporate a wind from the ionizing source, in order to investigate the formation of the bow shock observed in several proplyds. We examine density and Hα maps, as well as the mass loss rates in the photoevaporated winds.Our results show that a photoevaporated wind propagates from the disk surface and becomes ionized after an ionization front (IF) seen as a bright peak in the Hα maps. We follow the development of an HI region inside the photoevaporated wind which corresponds to a photodissociated region (PDR) for most of our models, except those without a FUV flux. For disks that are at a distance from the source d ≥0.1pc, the PDR is thick and the IF is detached from the disk surface. In contrast, for disks that are closer to the source, the PDR is thin and not resolved in our simulations. The IF then coincides with the first grid points of the disk that are facing the ionizing photon source. In both cases, the photoevaporated wind shocks (after the IF) with the wind that comes from the ionizing source, and this interaction region is bright in Hα. Our 3D models produce two emission features: a hemispherically shaped structure (associated with the IF) and a detached bow shock where both winds collide. A photodissociated region develops in all of the models exposed to the FUV flux. More importantly, disks with different inclinations with respect to the ionizating source have relatively similar photodissociation regions. If the disk axis is not aligned with the direction of the ionizing photon flux, the IF displays moderate side-to-side asymmetries, in qualitative agreement with images of proplyds, which also show such asymmetries. The mass loss rates are ∼10–7M/yr for face-on disks, and 5x10–8M/yr for inclined disks at distances from 0.1 to 0.2pc from the ionizing photon sources.

Abstract Copyright:

Journal keyword(s): HII regions - hydrodynamics - stars: winds, outflows - circumstellar matter

Simbad objects: 5

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Number of rows : 5

N Identifier Otype ICRS (J2000)
RA
ICRS (J2000)
DEC
Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2020
#notes
1 * tet01 Ori C ** 05 35 16.46375 -05 23 22.8486 4.20 5.15 5.13 4.91 4.73 O7Vp 1271 1
2 NAME Trapezium Cluster As* 05 35 16.5 -05 23 14           ~ 1466 1
3 * tet01 Ori G Y*O 05 35 16.723 -05 23 16.56 14.712 13.704 13.678   13.081 K0.7 97 1
4 Parenago 1894 Y*O 05 35 16.97 -05 23 37.0 15.006 14.944 14.492   12.593 M2e 76 0
5 M 42 HII 05 35 17.3 -05 23 28           ~ 3724 0

    Equat.    Gal    SGal    Ecl

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2020.07.04-15:07:17

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