Astronomy and Astrophysics – Astrophysics
Scientific paper
2000-12-27
Astronomy and Astrophysics
Astrophysics
Submitted to ApJ, 21 pages, 11 figures, Latex Substantially revised from astro-ph version 1
Scientific paper
Silicon nanoparticles (SNPs) have been proposed as the source of the observed "extended red emission" (ERE) from interstellar dust. We calculate the thermal emission expected from such particles in a reflection nebula such as NGC 2023, and in the diffuse interstellar medium (ISM). Pure neutral Si SNPs would emit at 16.4 micron (um), while Si/SiO2 SNPs (both neutral and charged) produce a feature at 20 um. Observational upper limits on the 16.4 um and 20 um features in NGC 2023 impose upper limits of < 1.5 ppm in pure Si SNPs, and or < 0.2 ppm in Si/SiO2 SNPs. The observed ERE intensity from NGC 2023 then gives a lower bound on the required photoluminescence efficiency eta. For foreground extinction A(0.68um) = 1.2, we find eta > 5% for Si SNPs, or eta > 24% for Si/SiO2 SNPs in NGC 2023. Measurement of the R band extinction toward the ERE-emitting region could strengthen these lower limits. The ERE emissivity of the diffuse ISM appears to require > 42% (> 33%) of solar Si abundance in Si/SiO2 (Si) SNPs. We predict IR emission spectra and show that DIRBE photometry appears to rule out such high abundances of free-flying SNPs in the diffuse ISM. If the ERE is due to SNPs, they must be either in clusters or attached to larger grains. Future observations by SIRTF will be even more sensitive to the presence of free-flying SNPs.
Draine Bruce T.
Li Aigen
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