The NH and CH Bands of Comet C/1996 B2 (Hyakutake)

Author： Meier R. Wellnitz D. Kim S.J. A'Hearn M.F.

ISSN： 0019-1035

Source： Icarus, Vol.136, Iss.2, 1998-12, pp. : 268-279

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Abstract

Comet Hyakutake was an ideal target for studying the near-nuclear region of a bright comet. On 1996 March 26.3–26.5 (UT) we observed the comet with an echelle spectrometer at the 4-m telescope atop Kitt Peak. High-resolution spectra of NH and CH are presented and compared with fluorescence models. At a spectral resolution of ∆&lgr; ≤ 0.2 Å two multiplets of ND are not blended by the overlying NH line forest. From these lines we derived a 3&sgr; upper limit for the D/H ratio in NH, (D/H)_NH ≤ 0.006. We reevaluated the g-factors for the NH (0–0) band and present g-factors for the strongest ND multiplets as a function of heliocentric velocity. Based on our measurements of the OH and NH (0–0) band we inferred a relative production rate Q(NH₃)/Q(H₂O) = (3.5 ± 1.0) × 10^-3. We demonstrate that single-cycle fluorescence models can be used to describe the observed CH bands, if we introduce different rotational temperatures for the two spin states, T(F₁) = 100 K and T(F₂) = 130 K. These temperatures are believed to be remnants from a previous dissociative excitation. Obviously collisions or radiative processes cannot completely relax CH before the radical decays. The rotational temperature may thus provide clues to the identity of the CH parent(s). A theoretical analysis of CD suggests that several lines of the CD A–X system are not masked by CH lines.