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AMI observations of Lynds Dark Nebulae: further evidence for anomalous cm-wave emission

Authors :
Scaife, Anna M. M.
Hurley-Walker, Natasha
Green, David A.
Davies, Matthew L.
Franzen, Thomas M. O.
Grainge, Keith J. B.
Hobson, Michael P.
Lasenby, Anthony N.
Pooley, Guy G.
Rodriguez-Gonzalvez, Carmen
Saunders, Richard D. E.
Scott, Paul F.
Shimwell, Timothy W.
Titterington, David J.
Waldram, Elizabeth M.
Zwart, Jonathan T. L.
Publication Year :
2009

Abstract

Observations at 14.2 to 17.9 GHz made with the AMI Small Array towards fourteen Lynds Dark Nebulae with a resolution of 2' are reported. These sources are selected from the SCUBA observations of Visser et al. (2001) as small angular diameter clouds well matched to the synthesized beam of the AMI Small Array. Comparison of the AMI observations with radio observations at lower frequencies with matched uv-plane coverage is made, in order to search for any anomalous excess emission which can be attributed to spinning dust. Possible emission from spinning dust is identified as a source within a 2' radius of the Scuba position of the Lynds dark nebula, exhibiting an excess with respect to lower frequency radio emission. We find five sources which show a possible spinning dust component in their spectra. These sources have rising spectral indices in the frequency range 14.2--17.9 GHz. Of these five one has already been reported, L1111, we report one new definite detection, L675, and three new probable detections (L944, L1103 and L1246). The relative certainty of these detections is assessed on the basis of three criteria: the extent of the emission, the coincidence of the emission with the Scuba position and the likelihood of alternative explanations for the excess. Extended microwave emission makes the likelihood of the anomalous emission arising as a consequence of a radio counterpart to a protostar or a proto-planetary disk unlikely. We use a 2' radius in order to be consistent with the IRAS identifications of dark nebulae (Parker 1988), and our third criterion is used in the case of L1103 where a high flux density at 850 microns relative to the FIR data suggests a more complicated emission spectrum.<br />Comment: submitted MNRAS

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.0908.1655
Document Type :
Working Paper
Full Text :
https://doi.org/10.1111/j.1365-2966.2009.15542.x