Astronomy and Astrophysics – Astrophysics
Scientific paper
2003-03-04
Astrophys.J. 590 (2003) 846-857
Astronomy and Astrophysics
Astrophysics
22 pages, including 11 postscript figs, LaTeX, accepted to ApJ, see companion paper
Scientific paper
10.1086/375162
We present analysis and modeling of X-ray spectra from the blast wave shock of DEM L71. We have used both Chandra ACIS-S data and optical Fabry-Perot spectra of the blast wave to measure the electron and proton temperatures, respectively. In principle, when combined, these measurements can determine the degree of electron-ion temperature equilibration (g_0 = T_e/T_p) immediately behind the shock front. In our X-ray analysis we fit Chandra spectra of three nested regions behind the blast wave under three different scenarios: (1) a planar, initially unequilibrated shock (g_0 = m_e/m_p), where the downstream electron and proton temperatures equilibrate through Coulomb collisions, (2) a planar, immediately equilibrated shock (g_0 = 1) and (3) a spherical, equilibrated shock under Sedov evolution. Using independent measurements of T_e and T_p we find that the X-ray spectra from the fastest blast wave locations (V_s~700-1000 km/s) are consistent with little or no equilibration at the shock front and are inconsistent with full equilibration. In contrast, spectra from regions showing slower blast wave speeds (V_s~400-600 km/s) allow full equilibration but exclude zero equilibration. In order to directly constrain the initial equilibration, we incorporated our knowledge of the proton temperatures into our X-ray models to build planar shock models that allowed for a variable g_0. This model confirmed and strengthened the above results. Specifically, we found that X-ray spectra from an intermediate velocity shock (V_s~800 km/s) were consistent with intermediate equilibration, excluding both g_0 = m_e/m_p and g_0 = 1 at greater than 1 sigma. Overall, our results support the picture of decreasing electron-ion equilibration with increasing shock speed.
Ghavamian Parviz
Hughes John Patrick
Rakowski Cara E.
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