Physics
Scientific paper
Jul 1996
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1996hst..prop.6796b&link_type=abstract
HST Proposal ID #6796
Physics
Hst Proposal Id #6796 Binaries And Star Formation
Scientific paper
Maximum-entropy eclipse mapping techniques have advanced to the stage of delivering spatially-resolved spectra of accretion disks. By fitting disk model atmospheres to these spectra we are now able to determine the radial run of the temperature, surface density {which controls the local effective gravity of the disk}, Mach number {which controls the strength of Balmer lines vs Balmer continuum}, and the vertical temperature gradient in the disk {which controls whether the lines are in emission or absorption}. Accretion disks in Cataclysmic Variables {CVs} cover a range of accretion rates and viscosity states. CVs show a bi-modal distribution of orbital periods, with systems clustering at periods of 1.5-2 hr or 3-5 hr, and a remarkable dearth of systems with periods between 2-3 hr. Our previous HST mapping experiments have framed accretion disks on both sides of this period gap, corresponding to the low and high accretion regimes. We now propose to look inside the gap by mapping the disk of V348 Pup {P_orb= 2.44 hr}. There are evidences that its disk has different properties from those previously mapped by HST at shorter and longer periods. Observations of this type can drive fundamental new insights into the physics of accretion disks.
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