Searching for the Shortest-wavelength Aromatic Infrared Bands: No Evidence for the Predicted 1.05 μm Polycyclic Aromatic Hydrocarbon Feature

Abstract

Polycyclic aromatic hydrocarbons (PAHs) are responsible for a variety of near- and mid-infrared spectral features in Galactic and extragalactic sources. A feature at 1.05 μm arising from electronic transitions in PAH cations is predicted by laboratory experiments but has never been observationally confirmed. We conduct a dedicated search for this feature in absorption on a highly-extinguished sight line toward BD+40 4223, a blue supergiant in Cyg OB2, using the TripleSpec spectrograph at Palomar Observatory. We place a 5σ upper limit on the feature strength of τ1.05/AV < 5.6 ×10-3, ruling out theoretical estimates with > 10σ significance. We constrain the effective temperature of BD+40 4223 to be 10(T eff)=4.410.03 and infer that it is veiled by 6.390.05 magnitudes of visual extinction, consistent with but more constraining than previous determinations. As dust on the sight line toward BD+40 4223 appears typical of the diffuse interstellar medium, this non-detection challenges existing models of PAH material properties and/or charge distribution.