Spectroscopic Determination of the Phase Composition and Temperature of Nitrogen Ice on Triton
Abstract
Laboratory spectra of the first overtone band (2.1480 micrometers, 4655.4 reciprocal centimeters) of solid nitrogen show additional structure at 2.1618 micrometers (4625.8 reciprocal centimeters) over a limited temperature range. The spectrum of Neptune's satellite Triton shows the nitrogen overtone band as well as the temperature-sensitive component. The temperature dependence of this band may be used in conjunction with ground-based observations of Triton as an independent means of determining the temperature of surface deposits of nitrogen ice. The surface temperature of Triton is found to be 38.0+2.0-1.0 K, in agreement with previous temperature estimates and measurements. There is no spectral evidence for the presence of α-nitrogen on Triton's surface, indicating that there is less than 10 percent carbon monoxide in solid solution with the nitrogen on the surface.
- Publication:
-
Science
- Pub Date:
- August 1993
- DOI:
- 10.1126/science.261.5122.751
- Bibcode:
- 1993Sci...261..751T
- Keywords:
-
- Phase Stability (Materials);
- Phase Transformations;
- Solid Nitrogen;
- Surface Temperature;
- Triton;
- Atmospheric Composition;
- Infrared Spectroscopy;
- Spectral Bands;
- Temperature Dependence;
- Lunar and Planetary Exploration; Satellites of Neptune;
- NEPTUNE;
- SATELLITES;
- TRITON;
- SPECTROSCOPY;
- PHASES;
- COMPOSITION;
- ICE;
- TEMPERATURE;
- NITROGEN;
- SURFACE;
- THERMAL EFFECTS;
- DEPOSITS;
- SPECTRA;
- CARBON MONOXIDE;
- EARTH-BASED OBSERVATIONS;
- ABSORPTION;
- WAVELENGTHS;
- INFRARED;
- LABORATORY STUDIES;
- PROCEDURE;
- COMPARISON;
- PARAMETERS;
- MODEL