The GMRT High-Resolution Southern Sky Survey for pulsars and transients -- VIII: Orbital Variability and the Evolution of a 1-Day He-WD Millisecond Pulsar J2101-4208

Abstract

We present timing and orbital phase-resolved polarimetry of the millisecond pulsar (MSP) J2101-4802, having a spin period of 9.48~ms and dispersion measure (DM) 25.05\ pc\ cm-3 discovered with the Giant Meter Radio Telescope (GMRT). From the phase-connected timing of this MSP spanning 3.7 years, we identify that PSR J2101-4802 is in a 1-day binary orbit with a likely helium-white-dwarf (He-WD) companion having a median companion mass of 0.15\, M, consistent with canonical recycling in the Galactic field. The timing solution further reveals an unusually large orbital period derivative, Pb (10-11\, s\,s-1), compared to typical Galactic-field MSP--HeWD binaries, which cannot be explained by the contributions from kinematic effects (Shklovskii and Galactic acceleration) or general-relativistic damping. Using wideband, full-Stokes observations, we also trace the linear and circular polarization variation across the orbital phase and fit a rotating-vector model (RVM) to its position-angle swing across the pulse phase, yielding constraints on the emission geometry (magnetic inclination and impact angle) of this system. The combination of a 1-day orbit, 0.15\,M companion, modest spin-down power, unusually large Pb, and phase-locked magnetized intrabinary plasma signatures suggests that PSR~J2101-4802 represents a transitional system linking redback-like spiders to detached He--WD MSP binaries.