Josephson currents in neutron stars

We demonstrate that the interface between $S$-wave and $P$-wave paired superfluids in neutron stars induces a neutron supercurrent, akin to the Josephson junction effect in electronic superconductors. The proton supercurrent entrainment by the neutron superfluid generates, in addition to the neutral supercurrent, a charged current across the interface. Beyond the stationary limit, the motions of the neutron vortex line and proton flux tube arrays, responding to secular changes in the neutron star's rotation rate, induce a time-dependent oscillating Josephson current across this interface. We show that such motion produces radiation from the interface, which is phenomenologically significant enough to heat the star and alter its cooling rate during the photon cooling era.