The impact of the spin-orbit misalignment and of the spin of B on the Lense-Thrirring orbital precessions of the Double Pulsar PSR J0737-3039A/B

Abstract

In the Double Pulsar, the Lense-Thirring periastron precession ωLT should be measured by the end of this decade. The analyses recently appeared in the literature rely upon a formula for ωLT,\,A induced by the spin angular momentum SA of A valid if the orbital angular momentum L and SA are aligned, and neglecting ωLT,\,B because of the smallness of SB. The impact on ωLT,\,A of the departures of the SA-L geometry from the ideal alignment is calculated. With the current upper bound on the misalignment angle δA between them, the angles λA,\,ηA of SA are constrained within 85 λA 92,\, 266 ηA 274. In units of ωGR=16.89\,yr-1, a range variation as little as ωLT,\,AωLT,\,Amax - ωLT,\,Amin = 8× 10-8\,ωGR is implied. The experimental uncertainty σωobs in measuring the periastron rate with the SKA 1-mid telescope should become smaller by 2028-2030. Then, the spatial orientation of SB is constrained from the existing bounds on the misalignment angle δB, and ωLT,\,B 2× 10-7\,ωGR is correspondingly calculated. The error σωobs should become smaller at the transition from MeerKAT+ facility to SKA 1-mid around 2025. (Abridged)