Add to ORKGThe response of the electron density peak height of the F2 region, hmF2, to geomagnetic storms has been investigated and a characteristic behavior of the peak height disturbance in relation to local-time, season and conditions of the interplanetary magnetic field has been obtained. The experimental results support the storm scenario which the change in the thermospheric wind is the main physical mechanism raising the ionospheric peak height. A real-time forecasting tool modeling the hmF2 disturbance, ΔhmF2, by analytical time-dependent functions has been developed. The empirical model predicts ΔhmF2 for latitudes of the Iberian Peninsula with an 86% of success and without false alarms. The behavior of the model fits to the experimental obse...
Abstract. Ionosonde data from sixteen stations are used to study the semiannual and annual variation...
The response of the polar ionosphere to magnetospheric storm inputs was modeled. During the storm th...
In this study, we documented the midlatitude F2-layer response to five strong geomagnetic storms wit...
An investigation of the response of the mid-high, mid and low latitude critical frequency foF2 to th...
A theoretical investigation of possible storm time neutral air wind, electric field and composition ...
International audienceWe have presented a comparison between the modeled NmF2 and hmF2, and NmF2 and...
295-302The variations in F2-region peak height and electron density at equatorial, low and mid-latit...
Annual, seasonal and semiannual variations of F2-layer electron density (NmF2) and height (hmF2) ha...
Annual, seasonal and semiannual variations of F2-layer electron density (NmF2) and height (hmF2) hav...
Published estimates of the trend in hmF2 using data from ionosondes over the last 30-40 years range ...
The construction of the height profile of the geomagnetic storm effects in the ionosphere and atmosp...
In this study, probable signature of mid-latitude electron density trough at the ionospheric critica...
This study attempts to demonstrate changes in the ionospheric F1-region daytime ionization during ...
On March 13, 1989 magnetic storm effects on the mid- and low-latitude ionosphere were investigated. ...
International audienceIn this paper, the ionospheric quiet-time disturbances otherwise known as Pre-...
Abstract. Ionosonde data from sixteen stations are used to study the semiannual and annual variation...
The response of the polar ionosphere to magnetospheric storm inputs was modeled. During the storm th...
In this study, we documented the midlatitude F2-layer response to five strong geomagnetic storms wit...
An investigation of the response of the mid-high, mid and low latitude critical frequency foF2 to th...
A theoretical investigation of possible storm time neutral air wind, electric field and composition ...
International audienceWe have presented a comparison between the modeled NmF2 and hmF2, and NmF2 and...
295-302The variations in F2-region peak height and electron density at equatorial, low and mid-latit...
Annual, seasonal and semiannual variations of F2-layer electron density (NmF2) and height (hmF2) ha...
Annual, seasonal and semiannual variations of F2-layer electron density (NmF2) and height (hmF2) hav...
Published estimates of the trend in hmF2 using data from ionosondes over the last 30-40 years range ...
The construction of the height profile of the geomagnetic storm effects in the ionosphere and atmosp...
In this study, probable signature of mid-latitude electron density trough at the ionospheric critica...
This study attempts to demonstrate changes in the ionospheric F1-region daytime ionization during ...
On March 13, 1989 magnetic storm effects on the mid- and low-latitude ionosphere were investigated. ...
International audienceIn this paper, the ionospheric quiet-time disturbances otherwise known as Pre-...
Abstract. Ionosonde data from sixteen stations are used to study the semiannual and annual variation...
The response of the polar ionosphere to magnetospheric storm inputs was modeled. During the storm th...
In this study, we documented the midlatitude F2-layer response to five strong geomagnetic storms wit...