Radio Science with Voyager 2 at Saturn: Atmosphere and Ionosphere and the Masses of Mimas, Tethys, and Iapetus

doi:10.1126/science.215.4532.553

Account Information

Guest Alerts | Access Rights | My Account | Sign In

Site Navigation

Article Views

Article Tools

My Science

Science 29 January 1982:
Vol. 215. no. 4532, pp. 553 - 558
DOI: 10.1126/science.215.4532.553

Prev | Table of Contents | Next

Articles

Radio Science with Voyager 2 at Saturn: Atmosphere and Ionosphere and the Masses of Mimas, Tethys, and Iapetus

G. L. TYLER ¹, V. R. ESHLEMAN ¹, J. D. ANDERSON ², G. S. LEVY ², G. F. LINDAL ², G. E. WOOD ², and T. A. CROFT ³

¹ Center for Radar Astronomy, Stanford University, Stanford, California 94305
² Jet Propulsion Laboratory, California Institute of Technology, Pasadena 91109
³ Radio Physics Laboratory, SRI International, Menlo Park, California 94025

Voyager 2 radio occultation measurements of Saturn's atmosphereprobed to the 1.2-bar pressure level, where the temperaturewas 143 ± 6 K and the lapse rate apparently equaled thedry adiabatic value of 0.85 K per kilometer. The tropopauseat both mid-latitude occultation locations (36.5°N and31°S) was at a pressure level of about 70 millibars anda temperature of approximately 82 K. The stratospheric structureswere very similar with the temperature rising to about 140 Kat the 1-millibar pressure level. The peak electron concentrationssensed were 1.7 x 10⁴ and 0.64 x 10⁴ per cubic centimeter inthe predawn (31°S) and late afternoon (36.5°N) locations.The topside plasma scale heights were about 1000 kilometersfor the late afternoon profile, and 260 kilometers for the lowerportions and 1100 kilometers for the upper portions of the topsidepredawn ionosphere. Radio measurements of the masses of Tethysand Iapetus yield (7.55 ± 0.90) x 10²⁰ and (18.8 ±1.2) x 10²⁰ kilograms respectively; the Tethys-Mimas resonancetheory then provides a derived mass for Afimas of (0.455 ±0.054) x 10²⁰ kilograms. These values for Tethys and Mimas representmajor increases from previously accepted ground-based values,and appear to reverse a suggested trend of increasing satellitedensity with orbital radius in the Saturnian system. Currentresults suggest the opposite trend, in which the intermediate-sizedsatellites of Saturn may represent several classes of objectsthat differ with respect to the relative amounts of water, ammonia,and methane ices incorporated at different temperatures duringformation. The anomalously low density of lapetus might thenbe explained as resulting from a large hydrocarbon content,and its unusually dark surface markings as another manifestationof this same material.

Submitted on November 10, 1981
Revised on November 23, 1981

THIS ARTICLE HAS BEEN CITED BY OTHER ARTICLES:

Radar Detection of Iapetus.: G. J. Black, D. B. Campbell, L. M. Carter, and S. J. Ostro (2004)
Science 304, 553
| Full Text » | PDF »

Voyager Radio Science Observations of Neptune and Triton.: G. L. Tyler, D. N. Sweetnam, J. D. Anderson, S. E. Borutzki, J. K. Campbell, V. R. Eshleman, D. L. Gresh, E. M. Gurrola, D. P. Hinson, N. Kawashima, et al. (1989)
Science 246, 1466-1473
| Abstract » | PDF »

Voyager 2 Radio Science Observations of the Uranian System: Atmosphere, Rings, and Satellites.: G. L. Tyler, G. L. TYLER, D. N. SWEETNAM, J. D. ANDERSON, J. K. CAMPBELL, V. R. ESHLEMAN, D. P. HINSON, G. S. LEVY, G. F. LINDAL, E. A. MAROUF, et al. (1986)
Science 233, 79-84
| Abstract » | PDF »

Eccentric Ringlet in the Maxwell Gap at 1.45 Saturn Radii: Multi-Instrument Voyager Observations.: L. W. ESPOSITO, N. BORDERIES, P. GOLDREICH, J. N. CUZZI, J. B. HOLBERG, A. L. LANE, R. B. POMPHREY, R. J. TERRILE, J. J. LISSAUER, E. A. MAROUF, et al. (1983)
Science 222, 57-60
| Abstract » | PDF »

A New Look at the Saturn System: The Voyager 2 Images.: B. A. Smith, B. A. SMITH, L. SODERBLOM, R. BATSON, P. BRIDGES, J. INGE, H. MASURSKY, E. SHOEMAKER, R. BEEBE, J. BOYCE, et al. (1982)
Science 215, 504-537
| Abstract » | PDF »