R. L. Baron scite author profile

The electrodynamic interaction between lo and the Jovian magnetosphere drives currents to and from the planet's ionosphere, where H(3)(+) emission is excited. Direct images of this phenomenon were obtained with the ProtoCAM infrared camera at the National Aeronautics and Space Administration's 3-m Infrared Telescope Facility. The emissions are localized to the instantaneous foot of the lo flux tube, approximately 8 degrees equatorward of the more intense auroral H(3)(+) emission associated with higher magnetic latitudes. The foot of the lo flux tube leads that of (undisturbed) model magnetic field lines passing through lo by 15 degrees to 20 degrees in longitude and is less visible in the northern hemisphere at longitudes where the surface magnetic field strength is greatest. These data favor the unipolar inductor model of the lo interaction and provide insight into the source location and generation of Jovian decameter radio emission.

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Thermal Maps of Jupiter: Spatial Organization and Time Dependence of Stratospheric Temperatures, 1980 to 1990

Orton

Friedson

Baines

et al. 1991

Science

102

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The spatial organization and time dependence of Jupiter's stratospheric temperatures have been measured by observing thermal emission from the 7.8-micrometer CH(4) band. These temperatures, observed through the greater part of a Jovian year, exhibit the influence of seasonal radiative forcing. Distinct bands of high temperature are located at the poles and mid-latitudes, while the equator alternates between warm and cold with a period of approximately 4 years. Substantial longitudinal variability is often observed within the warm mid-latitude bands, and occasionally elsewhere on the planet. This variability includes small, localized structures, as well as large-scale waves with wavelengths longer than approximately 30,000 kilometers. The amplitudes of the waves vary on a time scale of approximately 1 month; structures on a smaller scale may have lifetimes of only days. Waves observed in 1985, 1987, and 1988 propagated with group velocities less than +/-30 meters per second.

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Solar Wind Control of Jupiter's H+3Auroras

Baron

Owen

Connerney

et al. 1996

Icarus

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Emission Source Model of Jupiter's H+3Aurorae: A Generalized Inverse Analysis of Images

Satoh

Connerney

Baron

1996

Icarus

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Jupiter's Tropospheric Thermal Emission. II. Power Spectrum Analysis and Wave Search

Harrington¹,

Dowling²,

Baron

1996

Icarus

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R. L. Baron

Images of Excited H ₃ ⁺ at the Foot of the Io Flux Tube in Jupiter's Atmosphere

Thermal Maps of Jupiter: Spatial Organization and Time Dependence of Stratospheric Temperatures, 1980 to 1990

Solar Wind Control of Jupiter's H+3Auroras

Emission Source Model of Jupiter's H+3Aurorae: A Generalized Inverse Analysis of Images

Jupiter's Tropospheric Thermal Emission. II. Power Spectrum Analysis and Wave Search

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R. L. Baron

Images of Excited H 3 + at the Foot of the Io Flux Tube in Jupiter's Atmosphere

Thermal Maps of Jupiter: Spatial Organization and Time Dependence of Stratospheric Temperatures, 1980 to 1990

Solar Wind Control of Jupiter's H+3Auroras

Emission Source Model of Jupiter's H+3Aurorae: A Generalized Inverse Analysis of Images

Jupiter's Tropospheric Thermal Emission. II. Power Spectrum Analysis and Wave Search

Contact Info

Product

Resources

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Images of Excited H ₃ ⁺ at the Foot of the Io Flux Tube in Jupiter's Atmosphere