Infrared Emission from Intracluster Dust Grains and Constraints on Dust Properties
نویسندگان
چکیده
For 117 clusters of galaxies, we explore the detectability of intracluster dust grains by current and future infrared facilities, taking into account both collisional heating and sputtering of grains by ambient plasma. If the dust grains are injected into the intergalactic space with the amount and size comparable to the Galactic values, the dust-to-gas ratio is typically 10 and the mean dust temperature is ∼ 30 K near the cluster center. The predicted infrared intensities lie marginally above the detection thresholds for Spitzer Space Telescope, ASTRO-F, Herschel and SPICA missions. For some nearby clusters such as Perseus, A3571, A2319, A3112 and A2204, good detections of intracluster dust signal are expected in the 70 μm band. Given rather tight constraints on the dust temperature from observed electron density and temperature, the dust mass can be inferred directly from the infrared observations. Further constraints on the size distribution will be obtained once multi-band data are available. They will definitely provide a powerful probe of the dust injection processes and dust-gas interactions in the intergalactic space.
منابع مشابه
Interstellar Dust Grains
This review surveys the observed properties of interstellar dust grains: the wavelength-dependent extinction of starlight, including absorption features, from UV to infrared; optical luminescence; infrared emission; microwave emission; optical, UV, and X-ray scattering by dust; and polarization of starlight and of infrared emission. The relationship between presolar grains in meteorites and the...
متن کاملThe Reddening Law of Galaxy Cluster Dust
Dust is expected to enter the intracluster medium in galaxy clusters both through stripping of galactic interstellar matter and through dusty winds from intracluster stars. Because the gas in galaxy clusters is 10 6 times hotter than the molecular clouds where galactic dust typically resides, it is a hostile environment for dust grains, which are destroyed by thermal sputtering. The physical pr...
متن کاملFar - infrared emission of intracluster dust in the Coma galaxy cluster ?
The ISOPHOT C200 camera aboard ISO has been used to observe the extended far infrared (FIR) emission from the Coma cluster of galaxies. Two scans with 48′ length across the cluster, each at 120 μm and 185 μm, were obtained at crossing position angles. The profiles of the surface brightness ratio I120μm/I185μm along the two scans are quite similar in showing an enhanced 120 μm emission within th...
متن کاملFar-infrared to millimeter astrophysical dust emission I: A model based on physical properties of amorphous solids
An abstract should be given We propose a new description of astronomical dust emission in the spectral region from the Far-Infrared to millimeter wavelengths. Unlike previous classical models, this description explicitly incorporates the effect of the disordered internal structure of amorphous dust grains. The model is based on results from solid state physics, used to interpret laboratory data...
متن کاملA simple model to interpret the ultraviolet, optical and infrared emission from galaxies
We present a simple, largely empirical but physically motivated model to interpret the midand far-infrared spectral energy distributions of galaxies consistently with the emission at ultraviolet, optical and near-infrared wavelengths. Our model relies on an existing angle-averaged prescription to compute the absorption of starlight by dust in stellar birth clouds and in the ambient interstellar...
متن کامل