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Description
Using the High Dispersion Spectrograph (HDS) at the Subaru Telescope, we secured the high-resolution line spectra in the 3600-7500{AA} wavelength range of the Galactic halo planetary nebula DdDm 1. We also analyzed the Hubble Space Telescope Faint Object Spectrograph data in the 1200-6730{AA} wavelength range. The diagnostic results indicate the electron temperatures of T_{epsilon}_~11000-14000K and the electron number densities of N_{epsilon}_~2000-10500cm^-3^. In spite of high gaseous temperatures, we have not detected high excitation lines, e.g., HeII. We derived abundance based on the ionic concentration of permitted and forbidden lines and the photoionization model. A comparison of the ionic concentrations from forbidden lines to recombination lines shows the abundance discrepancy between them. We tested various possibilities, e.g., temperature fluctuation and high-density blob components, to explain the discrepancy. The high-density components or density fluctuation might be partly responsible for the discrepancy. DdDm 1 shows a low carbon abundance that corresponds to metal-poor stars, [Fe/H]<=-1. Assuming a distance of 10kpc to DdDm 1, theoretical models suggest that the central star has T_eff_~39000K and L~2000-3000L_{sun}_. The relatively high gas temperatures appear to be caused by very low heavy elemental abundances or insufficient coolants in the shell gas. Its progenitor, born in an extremely carbon-poor environment as an initial mass of about 0.9M_{sun}_, had probably experienced only the first dredge-up.
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