Media playback is unsupported on your device Media caption Prof Richard Harrison, Rutherford Appleton Laboratory on the "milestone"

Two US spacecraft have moved either side of the Sun to establish observing positions that should return remarkable new information about our star.

Launched in 2006, the Stereo satellites have gradually been drifting apart - one in front of the Earth in its orbit, the other lagging behind.

On Sunday, Nasa said the spacecraft had arrived at points that put the Sun directly between them.

It will give solar physicists the first 360-degree view of our star.

Stereo is short for Solar Terrestrial Relations Observatory.

The mission is studying the Sun's great explosive events that hurl billions of tonnes of charged particles at Earth - events that can disrupt power grids and satellites.

These Coronal Mass Ejections (CMEs), as they are known, can also be hazardous to astronauts in space.

These things stress to us that you can't really study the Sun in great detail just by looking at a bit of it... you need this global view to really piece the jigsaw puzzle together Professor Richard Harrison, Rutherford Appleton Laboratory

Professor Richard Harrison of the STFC Rutherford Appleton Laboratory, UK, is an investigator on the project.

He told BBC News: "By being away from the Sun-Earth line, you can look back at the space between the Sun and the Earth and see any of these clouds, these coronal mass ejections that are thrown out of the Sun and are coming our way - you can even see these things passing over the Earth. Those are the key to what Stereo's all about."

The two spacecraft will continue to move further apart, heading toward each other on the opposite side of the Sun from the Earth; this means that the full view provided by the two craft will fade, leaving a growing region behind the Sun - on the Earth side - that they do not see.

However, the Solar Dynamics Observatory, launched in Earth orbit a year ago, will remain fixed on the Sun, providing the missing piece of the puzzle.

Achieving an all-round-view view of the Sun will be key to understanding what drives the complex processes in the Sun, believes Professor Harrison.

Image caption The Stereo satellites are already feeding data into space weather forecasts

"You really see it with these widely separated regions of the Sun's atmosphere that are connected magnetically, showing activity at the same time, or causing activity somewhere else," he explained.

"These things stress to us that you can't really study the Sun in great detail just by looking at a bit of it, any more than you could understand the brain by looking at a bit of it or study the Earth's polar regions by looking at the equator. You need this global view to really piece the jigsaw puzzle together."

Scientists suspect that activity on the Sun can on occasions go global, with eruptions on opposite sides of the Sun triggering and feeding off one another. With the Stereo craft in their new positions, this phenomenon can now be studied.

Stereo is already being used to improve "space weather" forecasts for airlines, power companies, satellite operators, and other customers.