Dynamical Masses and Radiative Transfer Modeling of HD 698: a Be Binary in Evolutionary Transition
Abstract
We present a detailed analysis of the early post-mass-transfer binary HD 698 (V742 Cas) combining high-resolution optical spectroscopy, long-baseline interferometry, and radiative-transfer modeling. Counter-phased radial-velocity curves yield a circular orbit with P=55.927+/-0.001 d and component masses MBe=7.48+/-0.07 Msun and Mcomp=1.23+/-0.02 Msun. The Be primary is traced by broad H alpha wings, while narrow metallic absorption lines arise from a slowly rotating companion. The interferometric separation implies a dynamical distance of 888+/-5 pc. The spectral energy distribution is reproduced with E(B-V)=0.321+/-0.016 and a viscous decretion disk of base density rho0~5x10-12 g cm-3 at r=Req, declining radially as rho(r)~r-n with n=3.0. The companion is luminous and inflated, with Teff=10.0(+0.2,-0.1) kK, Rcomp=13.1+/-0.2 Rsun, and log(L/Lsun)=3.19, contributing significantly to the flux (Lcomp/LBe~0.3). Spectral line mismatches further suggest a hydrogen-poor, CNO-processed atmosphere, consistent with a stripped-envelope star. HD 698 thus adds to the emerging class of Be+bloated OB binaries, capturing a brief post-mass-transfer phase when the donor remains spectroscopically detectable prior to the subdwarf stage.
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