SimultaneousHubble Space TelescopeandASCAObservations of LMC X‐4: X‐Ray Ionization Effects on a Stellar Wind

Abstract

We present first results from simultaneous ultraviolet (UV; HST/GHRS) and X-ray (ASCA) observations of the 13.5s pulsar LMC X-4 taken in 1996 May. The GHRS data are the highest resolution (both temporal and spectral) UV spectra ever taken of LMC X-4. Fits to the UV continuum using a model that incorporates X-ray heating of the companion star and the accretion disk yields a mass accretion rate Mdot=4.0x10^(-8) Msun/yr; the X-ray luminosity implied by this value is consistent with the X-ray flux measured during simultaneous observations. The model accurately predicts observed B magnitude and ultraviolet variations over both orbital and long-term periods. The UV P-Cygni lines show dramatic changes with orbital phase: strong broad absorption near X-ray eclipse and narrow absorption when the X-ray source is in the line-of-sight. We interpret this as a result of X-ray photoionization of the stellar wind; when the neutron star is in front of the normal star, the wind absorption disappears and mainly the photospheric absorption lines are visible. The X-ray pulse period measured during our observations, 13.5090+/-0.0002s, is consistent with steady spin-down over the past 10 years. No pulsations were detected in the UV observations with upper limits to the pulsed fraction around N V and C IV of 1.8% and 2.7% in the continuum and 12.4% and 7% in the absorption troughs.