A CME, one type of "solar storm", erupts from the Sun in January 2002. The actual disc of the Sun, indicated by the white circle, is hidden in this view through an instrument called a coronagraph. The coronagraph creates an artificial eclipse by blocking the too-bright light from the Sun's surface, allowing us to view the Sun's dimmer atmosphere. Click on image for full size (1,002K GIF) Images courtesy SOHO (NASA & ESA). Animation by Windows to the Universe staff (Randy Russell).

On Earth, certain conditions in our atmosphere give rise to powerful storms - thunderstorms, blizzards, tornadoes, hurricanes, and the like. The Sun also has an atmosphere, and incredible storms that dwarf Earthly storms (in terms of the vast amounts of energy involved). Sometimes they blast forth from the Sun's surface into the solar atmosphere.

The two main types of storms on the Sun are solar flares and Coronal Mass Ejections (CMEs). The two are closely related, though scientists are still trying to work out the exact details of the relationship between flares and CMEs. Both are associated with tangled magnetic fields in the neighborhood of active regions on the Sun's surface. Like a rubber band that is twisted until it snaps, the tangled magnetic fields around an active region release energy when they "snap". The energy emitted in a matter of minutes by a solar flare can be as much as is associated with 100 hurricanes on Earth!

Solar flares emit energy in the form of electromagnetic radiation, including X-rays, ultraviolet radiation, visible light, and radio waves. The photons emitted by a flare arrive at Earth in just over eight minutes after the flare erupts on the Sun, having traveled the intervening distance at the speed of light. Flares also generate high-energy electrons and protons, which reach the Earth somewhat later. A solar flare typically lasts a few minutes to as long as an hour.

CMEs are explosions in the corona, a part of the Sun's atmosphere. These explosions expel a huge bubble of several billion tons of gas and plasma into space. A CME typically releases about the same amount of energy as a flare, though over a period of several hours instead of minutes. If the CME is "aimed" at Earth, it generally takes between one to four days to reach us from the Sun.

If the energy from a solar storm is directed at Earth, it can produce dramatic and dangerous results. Astronauts on spacewalks are in danger of increased radiation exposure, and electronic components on satellites can be fried. Earth's magnetic field and atmosphere shield those of us on the ground from most of the dangerous radiation associated with solar storms. Sometimes, if we're lucky, these storms can offer us a wonderful treat, for the the beautiful displays of the aurora (Northern and Southern Lights) are indirect results of solar storms.

Some "seasons" are stormier than others on the Sun. Sunspots, the visible manifestations of the powerful magnetic fields at active regions, are more prevalent during "storm seasons" on the Sun. The number of sunspots rises and falls in an 11-year cycle, and an increase in the sunspot count signals an increase in solar activity and the accompanying solar storms.

A CME, one type of "solar storm", erupts from the Sun in January 2002. The actual disc of the Sun, indicated by the white circle, is hidden in this view through an instrument called a coronagraph. The coronagraph creates an artificial eclipse by blocking the too-bright light from the Sun's surface, allowing us to view the Sun's dimmer atmosphere. Click on image for full size (1,002K GIF) Images courtesy SOHO (NASA & ESA). Animation by Windows to the Universe staff (Randy Russell).

You know, of course, that certain conditions in the Earth's atmosphere can cause powerful storms like thunderstorms, blizzards, tornadoes, and hurricanes. The Sun also has an atmosphere, and incredible storms that dwarf Earthly storms sometimes blast forth from the Sun's surface into the solar atmosphere.

The two main types of storms on the Sun are solar flares and Coronal Mass Ejections (CMEs). Both storms have to do with tangled magnetic fields in the neighborhood of active regions on the Sun's surface. Like a rubber band that is twisted until it snaps, the tangled magnetic fields around an active region release energy when they "snap". The energy given off in a matter of minutes by a solar flare can be as much as is given off by 100 hurricanes on Earth!

Solar flares emit energy in the form of electromagnetic radiation, including X-rays, ultraviolet radiation, visible light, and radio waves. A solar flare typically lasts a few minutes to as long as an hour.

CMEs are explosions in the corona, the top part of the Sun's atmosphere. These explosions throw out a huge bubble of billions of tons of gas and plasma into space. A CME typically releases about the same amount of energy as a flare, but it lasts several hours instead of minutes. If the CME is "aimed" at Earth, it takes about one to four days to reach us from the Sun.

The energy from solar storms can be dangerous if it reaches Earth! Astronauts on spacewalks are in danger of increased radiation exposure, and electronics on satellites can be fried. Earth's magnetic field and atmosphere shield those of us on the ground from most of the dangerous radiation thrown out by solar storms.

Sometimes, if we're lucky, solar storms can offer us a wonderful (safe!) treat. The beautiful displays of the aurora (Northern and Southern Lights) are results of solar storms.

Some "seasons" are stormier than others on the Sun. Sunspots are more common during "storm seasons" on the Sun. The number of sunspots rises and falls in an 11-year cycle, and an increase in the sunspot count means an increase in solar activity or solar storms will follow.

A CME, one type of "solar storm", erupts from the Sun in January 2002. Click on image for full size (1,002K GIF) Images courtesy SOHO (NASA & ESA). Animation by Windows to the Universe staff (Randy Russell).

There are two different kinds of storms on the Sun. They are called solar flares and CMEs (short for Coronal Mass Ejections). Solar flares last only a few minutes to as long as an hour. CMEs usually last a few hours. Even in this short amount of time, both storms on the Sun can give off more energy than 100 hurricanes on Earth!

The energy from solar storms can be dangerous if it reaches Earth! Astronauts on spacewalks are in danger of radiation exposure, and electronics on satellites can be fried. We're safe here on Earth because of the shield the Earth's magnetic field and atmosphere provide.

Sometimes, solar storms do offer us a wonderful (safe!) treat. The beautiful aurora (Northern and Southern Lights) are results of solar storms.

Some "seasons" are stormier than others on the Sun. More storms happen in the height of the 11-year solar cycle or near solar maximum times.