Aims: Our goal is to investigate the properties of the circumstellar disks around intermediate mass stars to determine their occurrence, lifetime and evolution. Methods: We completed a search for circumstellar disks around Herbig Be stars using the NRAO Very Large Array (VLA) and the IRAM Plateau de Bure (PdB) interferometers. Thus far, we have observed 6 objects with 4 successful detections. The results towards 3 of these stars (R Mon, MWC 1080, MWC 137) were presented elsewhere. We present our new VLA and PdBI data for the three objects MWC 297, Z CMa, and LKHα 215. We constructed the SED from near-IR to centimeter wavelengths by adding our millimeter and centimeter data to the available data at other wavelengths, mainly Spitzer images. The entire SED was fitted using a disk+envelope model. In addition, we compiled all the disk millimeter observations in the literature and completed a statistical analysis of all the data. Results: We show that the disk mass is usually only a small percentage (less than 10%) of the mass of the entire envelope in HBe stars. For the disks, there are large source-to-source variations. Two disks in our sample, R Mon and Z CMa, have similar sizes and masses to those found in T Tauri and Herbig Ae stars. The disks around MWC 1080 and MWC 297 are, however, smaller (r_out < 100 AU). We did not detect the disks towards MWC 137 and LkHα 215 at millimeter wavelengths, which limits the mass and the size of the possible circumstellar disks. Conclusions: A comparison between our data and previous results for T Tauri and Herbig Ae stars indicates that although massive disks (~0.1 M_⊙) are found in young objects (~104 yr), the masses of the disks around Herbig Be stars are usually 5-10 times lower than those around lower mass stars. We propose that disk photoevaporation is responsible for this behavior. In Herbig Be stars, the UV radiation disperses the gas in the outer disk on a timescale of a few 105 yr. Once the outer part of the disk has vanished, the entire gaseous disk is photoevaporated on a very short timescale (~105 yr) and only a small, dusty disk consisting of large grains remains.

Alonso-Albi T, Fuente A, Bachiller R, Neri R, Planesas P, Testi L, et al. (2009). Circumstellar disks around Herbig Be stars. ASTRONOMY & ASTROPHYSICS, 497, 117-136 [10.1051/0004-6361/200810401].

Circumstellar disks around Herbig Be stars

Testi L;
2009

Abstract

Aims: Our goal is to investigate the properties of the circumstellar disks around intermediate mass stars to determine their occurrence, lifetime and evolution. Methods: We completed a search for circumstellar disks around Herbig Be stars using the NRAO Very Large Array (VLA) and the IRAM Plateau de Bure (PdB) interferometers. Thus far, we have observed 6 objects with 4 successful detections. The results towards 3 of these stars (R Mon, MWC 1080, MWC 137) were presented elsewhere. We present our new VLA and PdBI data for the three objects MWC 297, Z CMa, and LKHα 215. We constructed the SED from near-IR to centimeter wavelengths by adding our millimeter and centimeter data to the available data at other wavelengths, mainly Spitzer images. The entire SED was fitted using a disk+envelope model. In addition, we compiled all the disk millimeter observations in the literature and completed a statistical analysis of all the data. Results: We show that the disk mass is usually only a small percentage (less than 10%) of the mass of the entire envelope in HBe stars. For the disks, there are large source-to-source variations. Two disks in our sample, R Mon and Z CMa, have similar sizes and masses to those found in T Tauri and Herbig Ae stars. The disks around MWC 1080 and MWC 297 are, however, smaller (r_out < 100 AU). We did not detect the disks towards MWC 137 and LkHα 215 at millimeter wavelengths, which limits the mass and the size of the possible circumstellar disks. Conclusions: A comparison between our data and previous results for T Tauri and Herbig Ae stars indicates that although massive disks (~0.1 M_⊙) are found in young objects (~104 yr), the masses of the disks around Herbig Be stars are usually 5-10 times lower than those around lower mass stars. We propose that disk photoevaporation is responsible for this behavior. In Herbig Be stars, the UV radiation disperses the gas in the outer disk on a timescale of a few 105 yr. Once the outer part of the disk has vanished, the entire gaseous disk is photoevaporated on a very short timescale (~105 yr) and only a small, dusty disk consisting of large grains remains.
2009
Alonso-Albi T, Fuente A, Bachiller R, Neri R, Planesas P, Testi L, et al. (2009). Circumstellar disks around Herbig Be stars. ASTRONOMY & ASTROPHYSICS, 497, 117-136 [10.1051/0004-6361/200810401].
Alonso-Albi T; Fuente A; Bachiller R; Neri R; Planesas P; Testi L; Bern#232; O; Joblin C
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/912070
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