The patchy accretion disc in HT Cassiopeiae

Abstract

We have reconstructed the temperatures and surface densities in the quiescent accretion disc in HT Cas by performing a Physical Parameter Eclipse Mapping analysis of archival UBVR observations. Using a simple hydrogen slab model and demanding a smooth, maximally artefact-free reconstruction, we derive a formal distance to HT Cas of 207 +- 10 pc, significantly larger than the 133 +- 14 pc we derive from a re-analysis of the data in the literature. We argue that the larger derived distance is probably incorrect but is not produced by inaccuracies in our spectral model or optimization method. The discrepancy can be resolved if the emission regions on the disc are patchy with a filling factor of about 40% of the disc's surface. This solves the problem with the high effective temperatures in the disc -- reducing them to around 6 500 K within a radius of 0.2 R_L1 -- and reduces the derived temperature of the white dwarf and/or boundary layer from 22600 to 15500 K. We discuss several possible sources of the chromospheric emission and its patchiness, including irradiation of the disc, thermal instabilities, spiral-wave-like global structures, and magnetically active regions associated with dynamo action and/or Balbus-Hawley instabilities.