The transient eddy height variance in midlatitudes during Southern Hemisphere (SH) winter achieves its largest value at zonal wavenumber 3. The presence of two highly statistically significant modes in the probability density distribution of the zonal wavenumber 3 amplitude allows one to conclude that this variance is the result of the circulation switching between two statistical flow regimes. One regime is characterized by a predominantly wavenumber 1 pattern and the other by an amplified wavenumber 3 pattern. The probability density distributions of the duration of these two regimes can be roughly approximated as exponential functions with e-folding times of 6 to 12 days. Thus, on the intraseasonal time scale during SH winter, the time m...
Seasonality in planetary wave structure in the southern hemisphere stratosphere and troposphere (1OO...
This thesis considers the dynamics of the leading mode of extratropical atmospheric variability, the...
The variability of the zonal-mean zonal wind in the Northern Hemisphere winter (December–March) is s...
A preliminary study of the probability density distribution of the wavenumber 3 amplitude in midlati...
Graduation date: 1988The dynamical nature of atmospheric disturbances in\ud the Southern Hemisphere ...
A quasi-geostrophic theoretical model for the frequency-dependent response of the zonalmean flow to ...
CCM1 exhibits a distinct deficit in grid point 500mb height variance and insufficient persistence at...
The interannual variability of the seasonal evolution in the southern hemisphere is investigated, us...
Abstract approved: The dynamical nature of atmospheric disturbances in the Southern Hemisphere simul...
The preferred spatial and temporal scales of transient baroclinic waves that are responsible for the...
The extratropical meridional energy transport in the atmosphere is fundamentally intermittent in nat...
The effects on surface-layer temperature, pressure, and circulation of flow regimes defined from par...
A simple mechanistic model, with time-independent planetary wave forcing at the lower boundary, is u...
The extratropical meridional energy transport in the atmosphere is fundamentally intermittent in nat...
The leading patterns of large-scale climate variability in the Southern Hemisphere are examined in t...
Seasonality in planetary wave structure in the southern hemisphere stratosphere and troposphere (1OO...
This thesis considers the dynamics of the leading mode of extratropical atmospheric variability, the...
The variability of the zonal-mean zonal wind in the Northern Hemisphere winter (December–March) is s...
A preliminary study of the probability density distribution of the wavenumber 3 amplitude in midlati...
Graduation date: 1988The dynamical nature of atmospheric disturbances in\ud the Southern Hemisphere ...
A quasi-geostrophic theoretical model for the frequency-dependent response of the zonalmean flow to ...
CCM1 exhibits a distinct deficit in grid point 500mb height variance and insufficient persistence at...
The interannual variability of the seasonal evolution in the southern hemisphere is investigated, us...
Abstract approved: The dynamical nature of atmospheric disturbances in the Southern Hemisphere simul...
The preferred spatial and temporal scales of transient baroclinic waves that are responsible for the...
The extratropical meridional energy transport in the atmosphere is fundamentally intermittent in nat...
The effects on surface-layer temperature, pressure, and circulation of flow regimes defined from par...
A simple mechanistic model, with time-independent planetary wave forcing at the lower boundary, is u...
The extratropical meridional energy transport in the atmosphere is fundamentally intermittent in nat...
The leading patterns of large-scale climate variability in the Southern Hemisphere are examined in t...
Seasonality in planetary wave structure in the southern hemisphere stratosphere and troposphere (1OO...
This thesis considers the dynamics of the leading mode of extratropical atmospheric variability, the...
The variability of the zonal-mean zonal wind in the Northern Hemisphere winter (December–March) is s...