The Aurora Australis - Southern Lights

The Aurora Australis or Southern Lights are mesmerizing, dynamic displays of light that appear in the Antarctic skies in winter.

They are, in effect, nature's light show; visual poetry penned from the quantum leaps of atmospheric gases. As those who have witnessed the Aurora can attest, few sights can equal the magic and mystery of these luminous sheets of color undulating in the frigid air of the Antarctic winter.


Aurora Facts
Where Seen
Mainly Polar latitudes
When seen
Clear cold nights
Average Duration
Several hours
Average Height
50 to 100 miles up
Common colors
Pale green and pink
Most common shape
Spiral curtains, arcs, or streamers
 

What is the Aurora Australis?
Aurora is the collective name given to the photons (light) emitted by atoms, molecules and ions that have been excited by energetic charged particles (principally electrons) travelling along magnetic field lines into the Earth's upper atmosphere. Aurora results from the interaction of the solar wind with the Earth's magnetic field.

The amazing color displays and formations are produced by the solar wind -- a stream of electrons and protons coming from the sun -- as it collides with gases in the upper atmosphere. These collisions produce electrical discharges which energize atoms of oxygen and nitrogen causing the release of various colors of light. Earth's magnetic field channels these discharges toward the poles. Variations in sunspot activity or the occurrence of so-called 'coronal holes' can often considerably enhance the auroral discharge adding to the intensity and duration of the displays.

Where do Auroras Occur?
The global distribution of auroral activity is an oval around the magnetic poles in both hemispheres. As the level of magnetic disturbance of the Earth's magnetic field increases, the oval of auroral activity expands equatorward. Known as 'Aurora borealis' in the north, auroras occur in the upper atmosphere of both poles and are occasionally visible from middle latitudes as a dark red glow near the poleward horizon.

When is the Best Time to Observe the Aurora?
The chance of observing auroras is strongly correlated with the sunspot cycle. Auroral activity over Antarctica peaks near the peak of the sunspot cycle and for the following couple of years. Auroral displays are more common near the equinoxes, but this does not preclude the occurrence of aurora at other times. One can only observe auroral displays at the South Pole during the six months from March to September; the rest of year the Pole experiences 24 hours of sunlight.

Did You Know?

  • The Aurora Australis is caused by plasma particles from the sun (part of the solar wind) which enter the atmosphere.
  • Collisions between the electrically charged particles and Earth's magnetic field ionize oxygen and nitrogen atoms, releasing light.
  • Blue and purplish-red light comes from ionized nitrogen molecules, green from oxygen molecules.
  • During periods of high activity, a single auroral storm can produce one trillion watts of electricity with a current of one million amps.
  • What are the Main Forms or Shapes of the Aurora?
    Although auroras appear in many forms -- pillars, streaks, wisps and haloes of vibrating color -- they're most memorable when they take the form of pale curtains which seem to float on a breeze of light. Most commonly, auroral glows form a band aligned in a magnetic east-west direction. If sufficient numbers of energetic electrons are impacting the upper atmosphere, bands may have shimmering rays extending upwards from them. These rays define magnetic field lines along which the auroral electrons travel into the atmosphere. The twisting of auroral rays and bands results from the dynamic interaction of electric currents and magnetic fields in the upper atmosphere. In active displays, multiple bands may be visible. These may break into small arcs.

    How Long Do Auroras Last?
    The active phase of an auroral display will last on the order of 15 to 40 minutes and may recur in 2 to 3 hours. Auroral band features may persist all night. A red dominated auroral glow will be very diffuse. It will vary in location and intensity very slowly (time scales of half a minute or so).

    What are the Colors of the Aurora?
    Auroral displays appear in many colors with pale green and pink the most common. However, different shades of red, yellow, green, blue, and violet have all been observed. The brightest auroral color is generally a green light emitted by excited oxygen atoms. A red diffuse glow results from another oxygen atom transition. A purple color results from a transition in a Nitrogen molecular ion. The mixture of the major green, red and purple emissions may combine to give aurora a general 'whitish' appearance. The color variations are a product of the altitude of the storm, and the density and composition of the ions at that altitude. The folding effect results from the electric field induced on either side of the auroral curtain by the electrons.

    How High is the Aurora?
    Generally, if an auroral band has an easily discernible lower border, this will be at around 60 to 70 miles in altitude. Auroral rays may extend above the lower border for hundreds of miles. If the lower border has a pinkish edge to it (resulting from an emission of molecular Nitrogen), the altitude may be around 50 to 60 miles. A diffuse red aurora occurs above 150 miles.