High Dust Depletion in Two Intervening Quasar Absorption Line Systems with the 2175- Extinction Bump at z1.4

Abstract

We present the column densities of heavy-elements and dust depletion studies in twostrong Mg~II absorption systems at z1.4 displaying the 2175- dust extinction feature. Column densities are measured from low-ionization absorption lines using Apparent Optical Depth Method on the Keck/ESI spectra. We find the dust depletion patterns resemble to that of cold diffuse clouds in the Milky Way (MW). The values, [Fe/Zn]≈ -1.5 and [Si/Zn]<-0.67, are among the highest dust depletion measured for quasar absorption line systems. In another 2175- absorber at z=1.64 toward the quasar SDSS J160457.50+220300.5, Noterdaeme et al. (2009) reported a similar dust depletion measurement ([Fe/Zn]=-1.47 and [Si/Zn]=-1.07) and detected C~I and CO absorption lineson its VLT/UVES spectrum. We conclude that heavy dust depletion (i.e. a characteristic of cold dense clouds in MW) is required to produce a pronounced 2175- extinction bump.