Variations of Interstellar Gas-to-Dust Ratios at High Galactic Latitudes

Abstract

Interstellar dust at high Galactic latitudes can influence astronomical foreground subtraction, produce diffuse scattered light, and soften the ultraviolet spectra of quasars. In a sample of 94 sight lines toward quasars at high latitude and low extinction, we evaluate the interstellar "gas-to-dust ratio" N H/E(B-V), using hydrogen column densities (H I and H2) and far-infrared estimates of dust reddening. In the Galactic plane, this ratio is 6.00.2 (in units of 1021~ cm-2~ mag-1). On average, recent Planck estimates of E(B-V) in low-reddening sight lines are 12% higher than those from Schlafly & Finkbeiner (2011), and N HI exhibits significant variations when measured at different radio telescopes. In a sample of 51 quasars with measurements of both H I and H2 and 0.01 ≤ E(B-V) 0.1, we find mean ratios 10.30.4 (gas at all velocities) and 9.20.3 (low velocity only) using Planck E(B-V) data. High-latitude H2 fractions are generally small (2-3% on average), although 9 of 39 sight lines at |b| ≥ 40 have f H2 of 1-17%. Because FIR-inferred E(B-V) is sensitive to modeled dust temperature Td and emissivity index β, gas-to-dust ratios have large, asymmetric errors at low E(B-V). The ratios are elevated in sight lines with high-velocity clouds, which contribute N H but little reddening. In Complex C, the ratio decreases by 40% when high velocity gas is excluded. Decreases in dust content are expected in low-metallicity gas above the Galactic plane, resulting from grain destruction in shocks, settling to the disk, and thermal sputtering in hot halo gas.

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