Browsing by Subject "spinning dust"
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Item Evidence for the Naphthalene Cation in a Region of the Interstellar Medium with Anomalous Microwave Emission(2008-09) Iglesias-Groth, S.; Manchado, A.; Garcia-Hernandez, D. A.; Hernandez, J. I. G.; Lambert, David L.; Lambert, D. L.We report high-resolution spectroscopy of the moderately reddened (A(v) = 3) early-type star Cernis 52 located in a region of the Perseus molecular cloud complex with anomalous microwave emission. In addition to the presence of the most common diffuse interstellar bands (DIBs) we detect two new interstellar or circumstellar bands coincident to within 0.01% in wavelength with the two strongest bands of the naphthalene cation (C(10)H(8)(+)) as measured in gas-phase laboratory spectroscopy at low temperatures and find marginal evidence for the third strongest band. Assuming these features are caused by the naphthalene cation, from the measured intensity and available oscillator strengths we find that 0.008% of the carbon in the cloud could be in the form of this molecule. We expect hydrogen additions to cause hydronaphthalene cations to be abundant in the cloud and to contribute via electric dipole radiation to the anomalous microwave emission. The identification of new interstellar features consistent with transitions of the simplest polycyclic aromatic hydrocarbon adds support to the hypothesis that this type of molecules are the carriers of both diffuse interstellar bands and anomalous microwave emission.Item Five-Year Wilkinson Microwave Anisotropy Probe Observations: Galactic Foreground Emission(2009-02) Gold, B.; Bennett, C. L.; Hill, R. S.; Hinshaw, G.; Odegard, N.; Page, L.; Spergel, D. N.; Weiland, J. L.; Dunkley, J.; Halpern, M.; Jarosik, N.; Kogut, A.; Komatsu, Eiichiro; Larson, D.; Meyer, S. S.; Nolta, M. R.; Wollack, E.; Wright, E. L.; Komatsu, EiichiroWe present a new estimate of foreground emission in the Wilkinson Microwave Anisotropy Probe (WMAP) data, using a Markov chain Monte Carlo method. The new technique delivers maps of each foreground component for a variety of foreground models with estimates of the uncertainty of each foreground component, and it provides an overall goodness-of-fit estimate. The resulting foreground maps are in broad agreement with those from previous techniques used both within the collaboration and by other authors. We find that for WMAP data, a simple model with power-law synchrotron, free-free, and thermal dust components fits 90% of the sky with a reduced chi(2)(v) of 1.14. However, the model does not work well inside the Galactic plane. The addition of either synchrotron steepening or a modified spinning dust model improves the fit. This component may account for up to 14% of the total flux at the Ka band (33 GHz). We find no evidence for foreground contamination of the cosmic microwave background temperature map in the 85% of the sky used for cosmological analysis.