We present a multiinstrumented approach for the analysis of the Arctic ionosphere during the 19 February 2014 highly complex, multiphase geomagnetic storm, which had the largest impact on the disturbance storm-time index that year. The geomagnetic storm was the result of two powerful Earth-directed coronal mass ejections (CMEs). It produced a strong long lasting negative storm phase over Greenland with a dominant energy input in the polar cap. We employed global navigation satellite system (GNSS) networks, geomagnetic observatories, and a specific ionosonde station in Greenland. We complemented the approach with spaceborne measurements in order to map the state and variability of the Arctic ionosphere. In situ observations from the Canadian...
During periods of major geomagnetic storms the polar ionosphere becomes very variable. Ground-based ...
We study the 22 January 2012 magnetic storm, during which some localized neutral density (D) increas...
We investigate the variations in the ionosphere during a small geomagnetic storm on June 23, 2000, u...
We present a multiinstrumented approach for the analysis of the Arctic ionosphere during the 19 Febr...
We present a case study of the 5 April 2010 geomagnetic storm using observations and numerical simul...
In this paper, the behavior of TEC at three stations located in the Arctic and Antarctic sectors dur...
This study focuses on the 15 May 2005 geomagnetic superstorm and aims to investigate the global vari...
[1] The upper atmosphere dynamics in the polar cap is mainly driven by ion-drag momentum sources imp...
This study investigates the coupled ionosphere-thermosphere system during the 17 January 2005 geomag...
A time-dependent, three-dimensional, multi-ion model of the global ionosphere-polar wind system was ...
The storm onset of the so-called “St. Patrick’s day geomagnetic storm”, on March 17th, 2015 triggere...
This dissertation includes studies on the generation mechanisms and plasma characteristics of polar ...
606-616A study of the intense geomagnetic storm on 2-6 April 2004 has been carried out using ionosp...
International audienceThe upper atmosphere dynamics in the polar cap is mainly driven by ion-drag mo...
The terrestrial atmospheric region between the altitudes of 90 km and 600 km is known as the thermos...
During periods of major geomagnetic storms the polar ionosphere becomes very variable. Ground-based ...
We study the 22 January 2012 magnetic storm, during which some localized neutral density (D) increas...
We investigate the variations in the ionosphere during a small geomagnetic storm on June 23, 2000, u...
We present a multiinstrumented approach for the analysis of the Arctic ionosphere during the 19 Febr...
We present a case study of the 5 April 2010 geomagnetic storm using observations and numerical simul...
In this paper, the behavior of TEC at three stations located in the Arctic and Antarctic sectors dur...
This study focuses on the 15 May 2005 geomagnetic superstorm and aims to investigate the global vari...
[1] The upper atmosphere dynamics in the polar cap is mainly driven by ion-drag momentum sources imp...
This study investigates the coupled ionosphere-thermosphere system during the 17 January 2005 geomag...
A time-dependent, three-dimensional, multi-ion model of the global ionosphere-polar wind system was ...
The storm onset of the so-called “St. Patrick’s day geomagnetic storm”, on March 17th, 2015 triggere...
This dissertation includes studies on the generation mechanisms and plasma characteristics of polar ...
606-616A study of the intense geomagnetic storm on 2-6 April 2004 has been carried out using ionosp...
International audienceThe upper atmosphere dynamics in the polar cap is mainly driven by ion-drag mo...
The terrestrial atmospheric region between the altitudes of 90 km and 600 km is known as the thermos...
During periods of major geomagnetic storms the polar ionosphere becomes very variable. Ground-based ...
We study the 22 January 2012 magnetic storm, during which some localized neutral density (D) increas...
We investigate the variations in the ionosphere during a small geomagnetic storm on June 23, 2000, u...