• Ohnaka, K.
• Wittkowski, Markus
• Weigelt, G.
• Driebe, T.

Abstract

Aims:We present the first multi-epoch N-band spectro-interferometric observations of the carbon-rich Mira variable <ASTROBJ>V Oph</ASTROBJ> using MIDI at the ESO's Very Large Telescope Interferometer. Our aim is to study temporal variations of physical properties of the outer atmosphere and the circumstellar dust shell based on spectrally-dispersed N-band visibilities over the C2H2 (+HCN) features and the dust emission.<BR />Methods: Our MIDI observations were carried out at three different phases 0.18, 0.49, and 0.65, with three different baselines (projected baseline lengths of 42-124 m) using four 8.2 m Unit Telescopes (UT2-UT4, UT1-UT4, and UT2-UT3 baseline configurations). <BR />Results: The wavelength dependence of the uniform-disk diameters obtained at all epochs is characterized by a roughly constant region between 8 and 10 μm with a slight dip centered at9.5 μm and a gradual increase longward of 10 μm. These N-band angular sizes are significantly larger than the estimated photospheric size of V Oph. The angular sizes observed at different epochs reveal that the object appears smaller at phase 0.49 (minimum light) with uniform-disk diameters of5-12 mas than at phases 0.18 ( 12-20 mas) and 0.65 ( 9-15 mas). We interpret these results with a model consisting of optically thick C2H2 layers and an optically thin dust shell. Our modeling suggests that the C2H2 layers around V Oph are more extended ( 1.7-1.8 R<SUB>star</SUB>) at phases 0.18 and 0.65 than at phase 0.49 ( 1.4 R<SUB>star</SUB>) and that the C2H2 column densities appear to be the smallest at phase 0.49. We also find that the dust shell consists of amorphous carbon and SiC with an inner radius of2.5 R<SUB>star</SUB>, and the total optical depths of τ<SUB>V</SUB> ≈ 0.6-0.9 (τ<SUB>11.3 μm</SUB> ≈ 0.003 and 0.004 for amorphous carbon and SiC, respectively) found at phases 0.18 and 0.65 are higher than the value obtained at phase 0.49, τ<SUB>V</SUB> ≈ 0.3 (τ<SUB>11.3 μm</SUB> ≈ 0.001 and 0.002 for amorphous carbon and SiC, respectively).<BR />Conclusions: Our MIDI observations and modeling indicate that carbon-rich Miras also have extended layers of polyatomic molecules as previously confirmed in oxygen-rich Miras. The temporal variation of the N-band angular size is largely governed by the variations of the opacity and the geometrical extension of the C2H2 layers and the dust shell, and consequently, this masks the size variation of the photosphere. Also, the observed weakness of the mid-infrared C2H2 absorption in carbon-rich Miras can be explained by the emission from the extended C2H2 layers and the dust shell.Based on observations made with the Very Large Telescope Interferometer of the European Southern Observatory. Program ID: 075.D-0607. Table 4 is only available in electronic form at the CDS via anonymous ftp to cdsarc.u-strasbg.fr (130.79.128.5) or via http://cdsweb.u-strasbg.fr/cgi-bin/qcat?J/A+A/466/1099

Topics

• impedance spectroscopy
• amorphous
• Carbon
• phase
• Oxygen