Mid-IR observations of circumstellar disks

Schuetz, O.; Meeus, G.; Sterzik, M.; Peeters, E.

doi:10.1051/0004-6361/20066262

Cited by 11 publications

(18 citation statements)

References 104 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…On the other hand, PDS 144S, with a low polarization, can be reproduced by later YSOs with small grains (SL and SH models) or a combination of earlier (LA) or later YSOs (SH) with large grains. Interestingly, these results are consistent with the mid-IR spectroscopy at N-band of the PDS 144 system by Schütz et al (2009). The PDS 144N spectrum has prominent PAH bands (suggesting very small grains) in a flared disk without any silicate emission.…”

Section: Circumstellar Materials Around Pds 144n and Pds 144ssupporting

confidence: 86%

“…Interestingly, PDS 144N is cited as the only Herbig Ae star with an optically thick edge-on disk spatially resolved (Perrin et al 2006, hereafter P06). The two stars are assumed to be the components of a physical binary because they both are pre-main sequence objects, but their circumstellar material is different in composition (Schütz et al 2009) and probably in geometry (P06). The distance of the PDS 144 system is uncertain, but considering the more accepted value (1 kpc), its separation of ∼5400 AU would indicate a really wide binary.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Polarimetry of the binary PDS 144

Pereyra

Rodrigues

Magalhães

2012

A&A

View full text Add to dashboard Cite

Aims. Our goal is to study the circumstellar environment associated with each component of the wide intermediate-mass pre-main sequence binary system PDS 144 using broadband polarimetry. Methods. We present near-infrared (NIR) linear polarimetric observations of PDS 144 gathered with the IAGPOL imaging polarimeter along with the CamIV infrared camera at the Observatório do Pico dos Dias (OPD). In addition, we re-analyzed OPD archive optical polarization to separate the binary and estimate the interstellar polarization using foreground stars. Results. After discounting the interstellar component, we found that both stars of the binary system are intrinsically polarized. The polarization vectors at optical and NIR bands of both components are aligned with the local magnetic field and the jet axis. These findings indicate an interplay between the interstellar magnetic field and the formation of the binary system. We also found that the PDS 144N is less polarized than its southern companion in the optical. However, in the NIR PDS 144N is more polarized. Our polarization data can only be explained by high inclinations (i 80 • ) for the disks of both members. In particular, comparisons of our NIR data with young stellar objects disk models suggest predominantly small grains in the circumstellar environment of PDS 144N. In spite of the different grain types in each component, the infrared spectral indexes indicate a coeval system. We also found evidence of coplanarity between the disks.

show abstract

Section: Circumstellar Materials Around Pds 144n and Pds 144ssupporting

confidence: 86%

Section: Introductionmentioning

confidence: 99%

Polarimetry of the binary PDS 144

Pereyra

Rodrigues

Magalhães

2012

A&A

View full text Add to dashboard Cite

show abstract

“…The excess associated with such a bright exozodiacal disc at a wavelength of 10 µm would amount to almost 20% of the photospheric flux, which would be readily detected by midinfrared spectro-photometry (see e.g. Schütz et al 2009;Lawler et al 2009;Morales et al 2009 spectro-photometry is not available for all our sources, the general absence of large excess at 10 µm suggests that the discs detected by FLUOR are significantly different from the solar zodiacal disc, with much higher dust temperatures. This conclusion has already been made by various authors based on a more thorough modelling of exozodiacal discs using multi-colour interferometric observations (Absil et al 2006;Akeson et al 2009;Defrère et al 2011Defrère et al , 2012Mennesson et al 2013;Lebreton et al 2013).…”

Section: Sensitivity Of Fluor and Comparison With Other Studiesmentioning

confidence: 86%

A near-infrared interferometric survey of debris-disc stars

Absil

Defrère

Foresto

et al. 2013

A&A

111

197

View full text Add to dashboard Cite

Context. Dust is expected to be ubiquitous in extrasolar planetary systems owing to the dynamical activity of minor bodies. Inner dust populations are, however, still poorly known because of the high contrast and small angular separation with respect to their host star, and yet, a proper characterisation of exozodiacal dust is mandatory for the design of future Earth-like planet imaging missions. Aims. We aim to determine the level of near-infrared exozodiacal dust emission around a sample of 42 nearby main sequence stars with spectral types ranging from A to K and to investigate its correlation with various stellar parameters and with the presence of cold dust belts. Methods. We use high-precision K-band visibilities obtained with the FLUOR interferometer on the shortest baseline of the CHARA array. The calibrated visibilities are compared with the expected visibility of the stellar photosphere to assess whether there is an additional, fully resolved circumstellar emission source. Results. Near-infrared circumstellar emission amounting to about 1% of the stellar flux is detected around 13 of our 42 target stars. Follow-up observations showed that one of them (eps Cep) is associated with a stellar companion, while another one was detected around what turned out to be a giant star (kap CrB). The remaining 11 excesses found around single main sequence stars are most probably associated with hot circumstellar dust, yielding an overall occurrence rate of 28 +8 −6 % for our (biased) sample. We show that the occurrence rate of bright exozodiacal discs correlates with spectral type, K-band excesses being more frequent around A-type stars. It also correlates with the presence of detectable far-infrared excess emission in the case of solar-type stars. Conclusions. This study provides new insight into the phenomenon of bright exozodiacal discs, showing that hot dust populations are probably linked to outer dust reservoirs in the case of solar-type stars. For A-type stars, no clear conclusion can be made regarding the origin of the detected near-infrared excesses.

show abstract

“…Table 1 presents a summary of the data set compiled in this work. (2010), F06: Spitzer/IRS data from Furlan et al (2006), G06: Spitzer/IRS data from Geers et al (2006), G07: VLT/ISAAC data from Geers et al (2007aGeers et al ( , 2007b, K06: Spitzer/IRS data from Kessler-Silacci et al (2006), K08: Spitzer/IRS data from Keller et al (2008), K12: Spitzer/IRS data from Kóspál et al (2012), M10: Spitzer/IRS data from Merín et al (2010), M13: Spitzer/IRS data from Maaskant et al (2013), PHT: ISO/ISOPHOT-S data from Kóspál et al (2012), SpX: IRTF/SpeX data from Smith et al (2004), SWS: Fully processed ISO/SWS atlas (http://isc.astro.cornell.edu/∼sloan/library/swsatlas/atlas.html, Sloan et al 2003), TMM: ESO/TIMMI2 data from Schütz et al (2009), and VSR: VLT/VISIR data from Geers et al (2007b).…”

mentioning

confidence: 99%

Polycyclic Aromatic Hydrocarbons in Protoplanetary Disks around Herbig Ae/Be and T Tauri Stars

Seok¹,

Li²

2017

ApJ

View full text Add to dashboard Cite

A distinct set of broad emission features at 3. 3, 6.2, 7.7, 8.6, 11.3, and 12.7 µm, is often detected in protoplanetary disks (PPDs). These features are commonly attributed to polycyclic aromatic hydrocarbons (PAHs). We model these emission features in the infrared spectra of 69 PPDs around 14 T Tauri and 55 Herbig Ae/Be stars in terms of astronomical-PAHs. For each PPD, we derive the size distribution and the charge state of PAHs. We then examine the correlations of the PAH properties (i.e., sizes and ionization fractions) with the stellar properties (e.g., stellar effective temperature, luminosity, and mass). We find that the characteristic size of PAHs shows a tendency of correlating with the stellar effective temperature (T eff ) and interpret this as the preferential photodissociation of small PAHs in systems with higher T eff of which the stellar photons are more energetic. In addition, the PAH size shows a moderate correlation with the red-ward wavelength-shift of the 7.7 µm PAH feature that is commonly observed in disks around cool stars. The ionization fraction of PAHs does not seem to correlate with any stellar parameters. This is because the charging of PAHs depends on not only the stellar properties (e.g., T eff , luminosity) but also the spatial distribution of PAHs in the disks. The mere negative correlation between the PAH size and the stellar age suggests that continuous replenishment of PAHs via the outgassing of cometary bodies and/or the collisional grinding of planetesimals and asteroids is required to maintain the abundance of small PAHs against complete destruction by photodissociation.

show abstract

Mid-IR observations of circumstellar disks

Cited by 11 publications

References 104 publications

Polarimetry of the binary PDS 144

Polarimetry of the binary PDS 144

A near-infrared interferometric survey of debris-disc stars

Polycyclic Aromatic Hydrocarbons in Protoplanetary Disks around Herbig Ae/Be and T Tauri Stars

Contact Info

Product

Resources

About