TY - JOUR
T1 - JHK'-band IOTA interferometry of the circumstellar environment of R CrB
AU - Ohnaka, K.
AU - Beckmann, U.
AU - Berger, J.-P.
AU - Brewer, M. K.
AU - Hofmann, K.-H.
AU - Lacasse, M.G.
AU - Malanushenko, V.
AU - Millan-Gabet, R.
AU - Monnier, J.D.
AU - Pedretti, E.
AU - Schertl, D.
AU - Schloerb, F.P.
AU - Shenavrin, V.I.
AU - Traub, W.A.
AU - Weigelt, G.
AU - Yudin, B.F.
PY - 2003/9/3
Y1 - 2003/9/3
N2 - We report the first long-baseline interferometry of the circumstellar dust environment of R CrB. The observations were carried out with the Infrared Optical Telescope Array (IOTA), using our new JHK0 beam combiner which enables us to record fringes in the J, H, and K0 bands simultaneously. The circumstellar dust envelope of R CrB is resolved at a baseline of 21 m along a position angle of 170, and the visibilities in the J, H, and K0 bands are 0:970:06, 0:780:06, and 0:610:03, respectively. These observed visibilities, together with the K0-band visibility obtained by speckle interferometry with baselines of up to 6 m, and the spectral energy distribution are compared with predictions from spherical dust shell models which consist of the central star and an optically thin dust shell. The comparison reveals that the observed J- and H-band visibilities are in agreement with those predicted by these models, and the inner radius and inner boundary temperature of the dust shell were derived to be 60–80 R? and 950–1050 K, respectively. However, the predicted K0-band visibilities are found to be 10% smaller than the one obtained with IOTA. Given the simplifications adopted in our models and the complex nature of the object, this can nevertheless be regarded as rough agreement. As a hypothesis to explain this small discrepancy, we propose that there might be a group of newly formed dust clouds, which may appear as a third visibility component.
AB - We report the first long-baseline interferometry of the circumstellar dust environment of R CrB. The observations were carried out with the Infrared Optical Telescope Array (IOTA), using our new JHK0 beam combiner which enables us to record fringes in the J, H, and K0 bands simultaneously. The circumstellar dust envelope of R CrB is resolved at a baseline of 21 m along a position angle of 170, and the visibilities in the J, H, and K0 bands are 0:970:06, 0:780:06, and 0:610:03, respectively. These observed visibilities, together with the K0-band visibility obtained by speckle interferometry with baselines of up to 6 m, and the spectral energy distribution are compared with predictions from spherical dust shell models which consist of the central star and an optically thin dust shell. The comparison reveals that the observed J- and H-band visibilities are in agreement with those predicted by these models, and the inner radius and inner boundary temperature of the dust shell were derived to be 60–80 R? and 950–1050 K, respectively. However, the predicted K0-band visibilities are found to be 10% smaller than the one obtained with IOTA. Given the simplifications adopted in our models and the complex nature of the object, this can nevertheless be regarded as rough agreement. As a hypothesis to explain this small discrepancy, we propose that there might be a group of newly formed dust clouds, which may appear as a third visibility component.
KW - techniques: interferometric
KW - stars: circumstellar matter
KW - stars: mass-loss
KW - stars: individual: R CrB
KW - stars: variable: general
KW - infrared: stars
U2 - 10.1051/0004-6361:20031002
DO - 10.1051/0004-6361:20031002
M3 - Article
SN - 0004-6361
VL - 408
SP - 553
EP - 558
JO - Astronomy and Astrophysics
JF - Astronomy and Astrophysics
IS - 2
ER -