Detection of the N2+ First Negative System in a Bright Leonid Fireball
Abstract
An ultraviolet-visible spectrum between 300 and 450 nm of a cometary meteoroid that originated from 55P/Tempel-Tuttle was investigated, and its new molecules, induced by atmospheric interaction, were discovered. The spectroscopy was carried out using an intensified high-definition TV camera with a slitless reflection grating during the 2001 Leonid meteor shower over Japan. A best-fit calculation mixed with atoms and molecules confirmed the first discovery of N2+ (B-X) bands in the UV meteor spectrum. The N2+ temperature was estimated to be 10,000 K with a low number density of 1.55 x 105 cm-3. Such unexpectedly strong ultraviolet emission, in particular for N2+(1,0) at 353.4 nm, is supposed to be formed through the wide dimensions of high-temperature regions caused by a large meteoroid. Spectroscopic observations of reentry capsules will provide us with good opportunities for confirming the discovered N2+.
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