Add to ORKGMesopause region horizontal winds have been measured over Collm during winter 2000/2001 to investigate the response of the mesosphere/lower thermosphere region to a major stratwarm. The stratospheric warming resulted in a reversal of both the zonal and meridional wind. In the zonal component, this reversal was due to a planetary oscillation with period 10 days, which was even more pronounced in the vertical gradients, so that the stratwarm effect on the mesopause was owing to the superposition of an intensifying planetary wave (PW) and a slow overall decrease of the zonal prevailing winds. An effect of the stratospheric warming on the semidiurnal tide is also visible, namely by a decrease of the tidal amplitudes and rapid phase shifts in th...
From daily analyses of the prevailing wind at the mesopause region (about 95 km) oscillations in the...
The middle atmosphere is disturbed by planetary waves (PWs) especially in the northern hemispheric w...
The dynamical response of the polar mesosphere and lower thermosphere (MLT) to sudden stratospheric ...
Mesopause region horizontal winds have been measured over Collm during winter 2000/2001 to investiga...
The stratospheric and mesospheric wind field in winter is dominated by the stratospheric polar vorte...
The influence of changes in the zonal mean stratospheric potential vorticity, associated with sudden...
This study investigates the effect of stratospheric sudden warmings (SSWs) on planetary wave (PW) ac...
During the DYANA campaign, winds and tides at mesospheric and lower thermospheric altitudes were mea...
Long-period oscillations in the period range between 2-30 days, interpreted as planetary wave (PW) s...
Windmessungen im Mesopausenbereich über Mitteleuropa (Collm, 52°N, I5°E) werden im Hinblick auf Lang...
Collm mesopause winds are analysed with respect to their correlation with 30 hPa northern hemispheri...
While the diurnal, semidiurnal and terdiurnal tides in the mesosphere / lower thermosphere (MLT) hav...
© 2004 American Geophysical UnionAn unprecedented major stratospheric warming occurred in the Antarc...
Investigation of the wind regime during solstices (1998-1999) allowed the presentation of the vertic...
The Northern Hemispheric winter is disturbed by large scale variability mainly caused by Planetary ...
From daily analyses of the prevailing wind at the mesopause region (about 95 km) oscillations in the...
The middle atmosphere is disturbed by planetary waves (PWs) especially in the northern hemispheric w...
The dynamical response of the polar mesosphere and lower thermosphere (MLT) to sudden stratospheric ...
Mesopause region horizontal winds have been measured over Collm during winter 2000/2001 to investiga...
The stratospheric and mesospheric wind field in winter is dominated by the stratospheric polar vorte...
The influence of changes in the zonal mean stratospheric potential vorticity, associated with sudden...
This study investigates the effect of stratospheric sudden warmings (SSWs) on planetary wave (PW) ac...
During the DYANA campaign, winds and tides at mesospheric and lower thermospheric altitudes were mea...
Long-period oscillations in the period range between 2-30 days, interpreted as planetary wave (PW) s...
Windmessungen im Mesopausenbereich über Mitteleuropa (Collm, 52°N, I5°E) werden im Hinblick auf Lang...
Collm mesopause winds are analysed with respect to their correlation with 30 hPa northern hemispheri...
While the diurnal, semidiurnal and terdiurnal tides in the mesosphere / lower thermosphere (MLT) hav...
© 2004 American Geophysical UnionAn unprecedented major stratospheric warming occurred in the Antarc...
Investigation of the wind regime during solstices (1998-1999) allowed the presentation of the vertic...
The Northern Hemispheric winter is disturbed by large scale variability mainly caused by Planetary ...
From daily analyses of the prevailing wind at the mesopause region (about 95 km) oscillations in the...
The middle atmosphere is disturbed by planetary waves (PWs) especially in the northern hemispheric w...
The dynamical response of the polar mesosphere and lower thermosphere (MLT) to sudden stratospheric ...