Add to ORKGLarge-scale electrical currents and Alfvénic waves are the two main drivers responsible for producing planetary aurorae. The relative contribution of each process is a central question in terrestrial auroral science, and poorly understood for other planets due to the relatively rare opportunity of in-situ spacecraft measurements. Here, we present observations of Jupiter's aurorae from the Hubble Space Telescope (HST) contemporaneous with Juno magnetometer measurements in the magnetosphere. For three successive days, we found that the magnetospheric ultralow-frequency (ULF) wave activity (with periods of 1–60 min) was correlated with auroral power. This was especially true for the Alfvénic modes. We further performed a statistical analysis b...
Io's motion relative to the Jovian magnetic field generates a power of about 10^12 W, which is thoug...
Jupiter's rapidly rotating, strong magnetic field provides a natural laboratory that is key to under...
The terawatts of ever-changing ultraviolet auroral emissions that are always observed with HST at bo...
peer reviewedLarge-scale electrical currents and Alfvénic waves are the two main drivers responsible...
Large-scale electrical currents and Alfvenic waves are the two main drivers responsible for producin...
In this thesis, we investigate the relevance of Alfvénic turbulence and related wave-particle intera...
peer reviewedThe Juno spacecraft's polar orbits have enabled direct sampling of Jupiter's low-altitu...
The Juno spacecraft's polar orbits have enabled direct sampling of Jupiter's low-altitude auroral fi...
Using a combination of Juno magnetometer and plasma data, we show evidence of Alfvénic turbulence wi...
The study of dynamics in planetary magnetospheres is critical to a fuller understanding of the flow ...
Io's interaction with the Jovian magnetosphere generates a power of about 1012 W which propagates as...
peer reviewedJupiter’s rapidly rotating, strong magnetic field provides a natural laboratory that is...
Jupiter's giant magnetosphere is a complex system seldom in a configuration approximating steady sta...
On 15 September 2021, Chandra carried out a 40‐hr (∼4 jovian rotations) observation as part of its l...
Jupiter’s rapidly rotating, strong magnetic field provides a natural laboratory that is key to under...
Io's motion relative to the Jovian magnetic field generates a power of about 10^12 W, which is thoug...
Jupiter's rapidly rotating, strong magnetic field provides a natural laboratory that is key to under...
The terawatts of ever-changing ultraviolet auroral emissions that are always observed with HST at bo...
peer reviewedLarge-scale electrical currents and Alfvénic waves are the two main drivers responsible...
Large-scale electrical currents and Alfvenic waves are the two main drivers responsible for producin...
In this thesis, we investigate the relevance of Alfvénic turbulence and related wave-particle intera...
peer reviewedThe Juno spacecraft's polar orbits have enabled direct sampling of Jupiter's low-altitu...
The Juno spacecraft's polar orbits have enabled direct sampling of Jupiter's low-altitude auroral fi...
Using a combination of Juno magnetometer and plasma data, we show evidence of Alfvénic turbulence wi...
The study of dynamics in planetary magnetospheres is critical to a fuller understanding of the flow ...
Io's interaction with the Jovian magnetosphere generates a power of about 1012 W which propagates as...
peer reviewedJupiter’s rapidly rotating, strong magnetic field provides a natural laboratory that is...
Jupiter's giant magnetosphere is a complex system seldom in a configuration approximating steady sta...
On 15 September 2021, Chandra carried out a 40‐hr (∼4 jovian rotations) observation as part of its l...
Jupiter’s rapidly rotating, strong magnetic field provides a natural laboratory that is key to under...
Io's motion relative to the Jovian magnetic field generates a power of about 10^12 W, which is thoug...
Jupiter's rapidly rotating, strong magnetic field provides a natural laboratory that is key to under...
The terawatts of ever-changing ultraviolet auroral emissions that are always observed with HST at bo...