Add to ORKGOn 19–21 April 2013, the ground-based 10-m W.M. Keck II telescope was used to simultaneously measure View the MathML sourceH3+ emissions from four regions of Saturn’s auroral ionosphere: (1) the northern noon region of the main auroral oval; (2) the northern midnight main oval; (3) the northern polar cap and (4) the southern noon main oval. The View the MathML sourceH3+ emission from these regions was captured in the form of high resolution spectral images as the planet rotated. The results herein contain twenty-three View the MathML sourceH3+ temperatures, column densities and total emissions located in the aforementioned regions – ninety-two data points in total, spread over timescales of both hours and days. Thermospheric temperatures in...
AbstractWe present comprehensive calculations of the steady state response of Saturn’s coupled therm...
On 21–22 April 2013, during a coordinated auroral observing campaign, instruments onboard Cassini an...
The majority of planetary aurorae are produced by electrical currents flowing between the ionosphere...
On 19–21 April 2013, the ground-based 10-m W.M. Keck II telescope was used to simultaneously measure...
On 19–21 April 2013, the ground-based 10-m W.M. Keck II telescope was used to simultaneously measure...
AbstractWe present an analysis of recent high spatial and spectral resolution ground-based infrared ...
This thesis presents analyses of infrared spectral observations of Saturn’s northern H+3 aurorae. Th...
We present Keck-NIRSPEC observations of Saturn's H3+ aurora taken over a period of a month, in suppo...
We present an analysis of recent high spatial and spectral resolution ground-based infrared observat...
At high spatial and spectral resolution, the 10-metre Keck and 3- metre NASA IRTF ground-based teles...
International audienceOn 21 April 2013, during a co-ordinated Saturn auroral observing campaign, the...
On 21 April 2013, during a co-ordinated Saturn auroral observing campaign, the northern and southern...
International audienceThe majority of planetary aurorae are produced by electrical currents flowing ...
In this study we performed a new analysis of ground-based observations that were taken on 17 April 2...
The aurora at Saturn represents a direct manifestation of the interaction between the planet’s surro...
AbstractWe present comprehensive calculations of the steady state response of Saturn’s coupled therm...
On 21–22 April 2013, during a coordinated auroral observing campaign, instruments onboard Cassini an...
The majority of planetary aurorae are produced by electrical currents flowing between the ionosphere...
On 19–21 April 2013, the ground-based 10-m W.M. Keck II telescope was used to simultaneously measure...
On 19–21 April 2013, the ground-based 10-m W.M. Keck II telescope was used to simultaneously measure...
AbstractWe present an analysis of recent high spatial and spectral resolution ground-based infrared ...
This thesis presents analyses of infrared spectral observations of Saturn’s northern H+3 aurorae. Th...
We present Keck-NIRSPEC observations of Saturn's H3+ aurora taken over a period of a month, in suppo...
We present an analysis of recent high spatial and spectral resolution ground-based infrared observat...
At high spatial and spectral resolution, the 10-metre Keck and 3- metre NASA IRTF ground-based teles...
International audienceOn 21 April 2013, during a co-ordinated Saturn auroral observing campaign, the...
On 21 April 2013, during a co-ordinated Saturn auroral observing campaign, the northern and southern...
International audienceThe majority of planetary aurorae are produced by electrical currents flowing ...
In this study we performed a new analysis of ground-based observations that were taken on 17 April 2...
The aurora at Saturn represents a direct manifestation of the interaction between the planet’s surro...
AbstractWe present comprehensive calculations of the steady state response of Saturn’s coupled therm...
On 21–22 April 2013, during a coordinated auroral observing campaign, instruments onboard Cassini an...
The majority of planetary aurorae are produced by electrical currents flowing between the ionosphere...