Secular Evolution of PSR J2021+4026: Long-Term γ-Ray Flux and Spin-Down Variability Beyond State Transitions

Abstract

PSR J2021+4026 is a remarkable γ-ray pulsar exhibiting repeated transitions between high γ-ray flux (HGF) and low γ-ray flux (LGF) states. With 17-yr Fermi-LAT monitoring, we reveal persistent secular evolution and enhanced spin-down rate variability within individual emission states -- beneath the quasi-periodic state transitions. After removing discrete jumps, the jump-corrected flux δ Fγ shows a three-phase evolution: rise (+2.02+0.17-0.15\%~yr-1), decline (-3.72+0.34-0.47\%~yr-1), and rapid rise (+14.9+6.4-4.4\%~yr-1), with all rates quoted relative to the long-term mean flux Fγ =7.8× 10-10\,erg\,cm-2\,s-1. Moreover, the flux of the LGF state is gradually approaching the stable HGF level at a rate of +0.72 0.11\%~yr-1. These results demonstrate that secular flux evolution in PSR J2021+4026 operates largely independently of discrete state transitions, yet jointly with them drives the system toward a stable high-flux equilibrium.