High-resolution imaging polarimetry of HL Tau and magnetic field structure
2004
We present high quality near infrared imaging
polarimetryof HL Tau at 0.4 to 0.6 arcsec resolution, obtained with Subaru/CIAO and UKIRT/IRCAM. 3-D Monte Carlo modelling with aligned
oblategrains is used to probe the structure of the
circumstellar envelopeand the magnetic field, as well as the dust properties. At J band the source shows a centrosymmetric pattern dominated by scattered light. In the H and
K bandsthe central source becomes visible and its polarisation appears to be dominated by dichroic extinction, with a
position angleinclined by � 40 ◦ to the disc axis. The polarisation pattern of the environs on scales up to 200 AU is consistent with the same dichroic extinction signature superimposed on the centrosymmetric scattering pattern. These data can be modelled with a magnetic field which is twisted on scales from tens to hundreds of AU, or alternatively by a field which is globally misaligned with the disc axis. A unique solution to the field structure will require spatially resolved circular polarisation data. The best fit Monte Carlo model indicates a shallow near infrared extinction law. When combined with the observed high polarisation and non-negligible albedo these constraints can be fitted with a grain model involving dirty water ice mantles in which the largest particles have radii slightly in excess of 1 µm. The best fit model has an envelope structure which is slightly flattened on scales up to several hundred AU. Both lobes of the
bipolar outflowcavity contain a substantial optical depth of dust (not just within the
cavity walls). Curved, approximately parabolic,
cavity wallsfit the data better than a conical cavity. The small inner
accretion discobserved at millimetre wavelengths is not seen at this spatial resolution.
Keywords:
-
Correction
-
Source
-
Cite
-
Save
64
References
62
Citations
NaN
KQI