High Winds of Neptune: A Possible Mechanism
Abstract
Neptune receives only 1/900th of the earth's solar energy, but has wind speeds of nearly 600 meters per second. How the near-supersonic winds can be maintained has been a puzzle. A plausible mechanism, based on principles of angular momentum and energy conservation in conjunction with deep convection, leads to a regione of uniform angular momentum at low latitudes. In this model, the rapid retrograde winds observed are a manifestation of deep convection, and the high efficiency of the planet's heat engine is intrinsic from the room allowed at low latitudes for reversible processes, the high temperatures at which heat is added to the atmosphere, and the low temperatures at which heat is extracted.
- Publication:
-
Science
- Pub Date:
- February 1991
- DOI:
- 10.1126/science.251.4996.929
- Bibcode:
- 1991Sci...251..929S
- Keywords:
-
- Neptune Atmosphere;
- Planetary Meteorology;
- Wind (Meteorology);
- Wind Velocity;
- Angular Momentum;
- Atmospheric Circulation;
- Atmospheric Models;
- Convection Currents;
- Wind Profiles;
- Lunar and Planetary Exploration; Neptune;
- NEPTUNE;
- WIND;
- VELOCITY;
- ANGULAR MOMENTUM;
- HYPOTHESES;
- ENERGY;
- MODELS;
- CONVECTION;
- LATITUDE;
- TEMPERATURE;
- HEATING;
- THERMAL EFFECTS;
- ATMOSPHERE;
- CIRCULATION;
- CLOUDS;
- MOTION;
- OUTER PLANETS;
- GAS PLANETS;
- INTERIOR;
- FLOW;
- GREAT DARK SPOT;
- URANUS;
- JUPITER;
- SATURN;
- GREAT RED SPOT;
- COMPARISONS;
- EDDY EFFECTS;
- VISCOSITY