Relativistic Scattering in the Funnel of Cygnus X-3

Abstract

Cygnus X-3 presents significant challenges to standard accretion models. Recent polarimetric observations by IXPE reveal high polarization degrees (PD) in the hard state ( 23\%) and unexpectedly significant polarization in the soft state ( 12\%), which are difficult to reconcile with static scattering models at low inclination (i ≈ 30). We present a relativistic scattering model within a funnel-shaped geometry that resolves this discrepancy. We show that a single funnel-outflow configuration with variable bulk velocity β can reproduce both polarization states, with lower velocities (β≈ 0) yielding 12\% polarization (soft state) and mildly relativistic velocities (β 0.4) producing 23\% polarization (hard state) at i ≈ 30 for half funnel opening angles of 13-16. Relativistic aberration modifies the effective scattering angle in the comoving frame, enhancing polarization in the hard state while recovering the static limit in the soft state. The model also yields a consistent estimate of the intrinsic luminosity, of order 1040 erg s-1, supporting a super-Eddington interpretation. This framework provides a unified explanation of the observed polarization properties of Cygnus X-3.