The Spectrum of Jupiter at 3.5 μm

been difficult to confirm observationally. For solar elemental abundances, NH 3 is predicted to condense out at T Ȃ A spectrum of Jupiter in the 3-m region obtained with the Infrared Space Observatory (ISO) shows evidence for the long-150 K near p Ȃ 0.7 bars, and solid NH 4 SH should form at sought

Jupiter was imaged in the near-infrared K band on July 22-24, 1994, i.e., shortly after the impact of Comet Shoemaker-Levy 9 (S-L9). Using the IRAC-2b near-infrared camera with Fabry-Perotinterferometer at the MPG/ ESO 2.2-m Telescope of the European Southern Observatory on La Silla in Chile, we obt

Magnetic and electric dipole transitions between the 211112 and zn3,2 components of the ground state of SeD have been observed at 1770 cm-' m an LMR experiment usmg a CO laser. The measurements have been combmed with other data from the EPR and far-mfkued LMR spectra to determme parameters III the e

The vibration-rotation emission spectrum of CsI was recorded in the 110-130 cm-1 region of the spectrum. Although individual rotational lines were not resolved, we measured the positions of 29 band heads involving the vibrational bands from 1-0 to 30-29. These vibrational data when combined with pre