SOFT-X-RAY PROPERTIES OF THE GEMINGA PULSAR

The ROSAT soft X-ray spectrum and pulse profile of the Geminga pulsar are analyzed and interpreted in terms of thermal emission from the surface of the neutron star. The X-ray spectrum appears to consist of two blackbody components with T1 = (5.2 +/- 1.0) x 10(5) K and T2 approximately 3 x 10(6) K, respectively. The inferred ratio of surface areas, A2/A1, is approximately 3 x 10(-5). Both components are highly modulated at the pulsar rotation period, but the harder X-ray pulse is narrower, and leads the main (soft) X-ray pulse by approximately 105-degrees of phase. The soft X-ray component is interpreted as photospheric cooling of much of the neutron star's surface area, while the small, hot region could be part of the much smaller polar cap heated by energetic particles flowing inward from the magnetospheric accelerator which is responsible for the production of Geminga's gamma-rays. Geminga's gamma-ray emission is consistent with outer-magnetosphere accelerator models for highly inclined dipoles. These predict the beaming of energetic gamma-rays close enough to the star to give copious e+/- production in the stellar magnetic field and a large circumstellar pair density from pair inflow toward the surface. These pairs may quench radio emission and also reflect most,of the hard polar cap X-rays back to the stellar surface by cyclotron resonance scattering. They are then reemitted from that much larger area at the lower temperature T1. The single-peaked nature of the X-ray pulse and its energy-dependent phase suggest an off-center dipole geometry for the surface magnetic field. Under the assumption that the soft X-ray emission comes from the full surface of a neutron star of radius R = 10 km, a distance estimate of (150-400) pc is derived. This range is consistent with the fitted interstellar column density of (1.5 +/- 0.5) X 10(20) cm-2. Distances less than 150 pc are probably ruled out both by the lower limit on the column density, and also by the requirement that the Rayleigh-Jeans extrapolation of the soft X-ray spectrum not exceed the observed blue flux of the faint optical counterpart. This distance estimate implies that Geminga's efficiency for converting spin-down power into gamma-rays is near unity, and that there may be significant beaming of the the gamma-rays as well. These results tend to bolster the prospect that most of the unidentified high-energy gamma-ray sources in the Galactic plane are pulsars, some of which may be radio quiet.