Helical tomography of an accretion disk by superhump light curves of the 2001 outburst of WZ Sagittae

A new method for analyzing complex superhump light curves for the 2001 Outburst of WZ Sagittae is proposed. The complexity arises because intrinsically time-varying and non-axisymmetric distributions of superhump light sources are coupled with the aspect effects around the binary orbital phase because of its high orbital inclination. The new method can disentangle these complexities by separating the non-axisymmetric spatial distribution ill the disk from the time variation with the superhump period. It may be called a helical tomography of an accretion disk because it call reconstruct a series of disk images (i.e., disk's azimuthal structures) at different superhump phases. The power spectral data of superhump light curves of the 2001 Outburst of WZ Sge by Patterson et al. (2002, PASP, 114, 72 1) are now interpreted under a new light based oil the concept of helical tomography, and the azimuthal wave numbers of various frequency modes arc identified. In particular, a frequency component, nomega(o) - Omega, where omega(o) and Omega are the orbital frequency and a low frequency of the apsidal precession of the eccentric disk, is understood as all (n - 1)-armed traveling, wave in the disk. A vigorous excitation of a wave component of cos(2(-) - 3omega(o)t) ill the first C7 week of the superhump era of WZ Sge, where theta is the azimuthal angle, Supports Lubow's (1991, AAA 54.064.175) theory of non-linear wave coupling of the eccentric Lindblad resonance for the superhump phenomenon. This method call in principle be applied to other SU UMa stars with high orbital inclination if light Curves are fully covered over the beat cycle.