Add to ORKGUnderstanding the composition and dynamics of Jupiter's aurorae is one of the main objectives for the Juno spacecraft, which has been orbiting Jupiter since 2016. One of the most surprising outcomes of the mission is the ability to observe the planet's northern and southern aurorae using the spacecraft's MicroWave Radiometer (MWR). Cold microwave emission associated with the Jovian aurorae have been observed on the MWR's 0.6, 1.24, and 2.6 GHz channels, where the lowest frequency channel at 0.6 GHz has the most prominent auroral signature. This inverse frequency dependence is typically caused by radiowave interactions with plasmas. The implication of these MWR observations suggest that Jupiter's aurorae have significantly higher electron de...
The Juno Microwave Radiometer (MWR) is a six-frequency scientific instrument designed and built to i...
International audienceObservations of Jovian broadband kilometric (bKOM) radiation and ultraviolet (...
Remote sensing of Jupiter's aurora from x-ray to radio wavelengths has revealed much about the natur...
Since August 2016, the Juno MicroWave Radiometer (MWR) has continuously measured the radiation emitt...
The Juno spacecraft successfully entered Jupiter orbit on 5 July 2016. One of Juno’s primary objecti...
Abstract: The Juno mission is providing stunning new information about Jupiter and its environment....
Juno is the next mission to Jupiter. Juno’s overarching scientific goal is to understand the origin ...
A meticulous multi-instrument analysis of Juno observations for the first ten science orbits (PJ1, P...
Observations of Jupiter’s low-frequency radio emissions were made using the radio and plasma wave in...
The Juno spacecraft carries with it a suite of instruments for both in situ and remote sensing obser...
Remote sensing of Jupiter's aurora from x-ray to radio wavelengths has revealed much about the natur...
Since the discovery of the jovian auroral radio emissions, the position of the different radio sourc...
peer reviewedRemote sensing of Jupiter's aurora from x-ray to radio wavelengths has revealed much ab...
A compact instrument called the MWR (MicroWave Radiometer) is under development at JPL for Juno, the...
A compact radiometer instrument is under development at JPL for Juno, the next NASA New Frontiers mi...
The Juno Microwave Radiometer (MWR) is a six-frequency scientific instrument designed and built to i...
International audienceObservations of Jovian broadband kilometric (bKOM) radiation and ultraviolet (...
Remote sensing of Jupiter's aurora from x-ray to radio wavelengths has revealed much about the natur...
Since August 2016, the Juno MicroWave Radiometer (MWR) has continuously measured the radiation emitt...
The Juno spacecraft successfully entered Jupiter orbit on 5 July 2016. One of Juno’s primary objecti...
Abstract: The Juno mission is providing stunning new information about Jupiter and its environment....
Juno is the next mission to Jupiter. Juno’s overarching scientific goal is to understand the origin ...
A meticulous multi-instrument analysis of Juno observations for the first ten science orbits (PJ1, P...
Observations of Jupiter’s low-frequency radio emissions were made using the radio and plasma wave in...
The Juno spacecraft carries with it a suite of instruments for both in situ and remote sensing obser...
Remote sensing of Jupiter's aurora from x-ray to radio wavelengths has revealed much about the natur...
Since the discovery of the jovian auroral radio emissions, the position of the different radio sourc...
peer reviewedRemote sensing of Jupiter's aurora from x-ray to radio wavelengths has revealed much ab...
A compact instrument called the MWR (MicroWave Radiometer) is under development at JPL for Juno, the...
A compact radiometer instrument is under development at JPL for Juno, the next NASA New Frontiers mi...
The Juno Microwave Radiometer (MWR) is a six-frequency scientific instrument designed and built to i...
International audienceObservations of Jovian broadband kilometric (bKOM) radiation and ultraviolet (...
Remote sensing of Jupiter's aurora from x-ray to radio wavelengths has revealed much about the natur...