Broad Wings around Hα and Hβ in the Two S-Type Symbiotic Stars Z Andromedae and AG Draconis

Symbiotic stars often exhibit broad wings around Balmer emission lines, whose origin is still controversial. We present the high resolution spectra of the S type symbiotic stars Z Andromedae and AG Draconis obtained with the ESPaDOnS and the 3.6 m Canada France Hawaii Telescope to investigate the broad wings around H$\alpha$ and H$\beta$. When H$\alpha$ and H$\beta$ lines are overplotted in the Doppler space, it is noted that H$\alpha$ profiles are overall broader than H$\beta$ in these two objects. Adopting a Monte Carlo approach, we consider the formation of broad wings of H$\alpha$ and H$\beta$ through Raman scattering of far UV radiation around Ly$\beta$ and Ly$\gamma$ and Thomson scattering by free electrons. Raman scattering wings are simulated by choosing an H I region with a neutral hydrogen column density $N_{HI}$ and a covering factor $CF$. For Thomson wings, the ionized scattering region is assumed to cover fully the Balmer emission nebula and is characterized by the electron temperature $T_e$ and the electron column density $N_e$. Thomson wings of H$\alpha$ and H$\beta$ have the same width that is proportional to $T_e^{1/2}$. However, Raman wings of H$\alpha$ are overall three times wider than H$\beta$ counterparts, which is attributed to different cross section for Ly$\beta$ and Ly$\gamma$. Normalized to have the same peak values and presented in the Doppler factor space. H$\alpha$ wings of Z And and AG Dra are observed to be significantly wider than H$\beta$ counterpart, favoring the Raman scattering origin of broad Balmer wings.