Could the low braking index pulsar PSR J1734-3333 evolve into a magnetar?

Abstract

The low braking-index pulsar PSR J1734-3333 could be born with superhigh internal magnetic fields B in1015-1016 G, and undergo a supercritical accretion soon after its formation in a supernova explosion. The buried multipole magnetic fields will merger into a dipole magnetic field. Since the magnetic flow transfers from the core to the crust of the pulsar, its surface dipole field grows quickly at a power-law form assumed until it saturates at the level of internal dipole field. The increase in surface dipole magnetic field results in the observed low braking index of n=0.9(2). Keeping an average field growth index =1.34(6), this pulsar will become a magnetar with surface dipole magnetic field at the equator B d 2.6(1)× 1014\,G and 5.3(2)× 1014\,G after next 50\,kyrs and 100\,kys, respectively.