(editor's note: Most of us know that our sun is not what we've been taught in school. It is more than a blob of flaming gas, it is a very important portal. Scientists are discovering discrepancies in the magnetic field boundaries of the sun. As their old theories give way, they too will uncover the marvels of it's unique and powerful magnetic field.
I'm so happy to report that news of activities happening outside and around our planet continue to intrigue more and more people!
Just a few years ago, "space geeks" were the only ones interested in all the wonderous events of our neighboring planets, stars, and galaxies. Now it seems everyone has their eyes to the skies!
The view from down here is a special vantage point, so I hope you enjoy this report and get a better understanding of how important YOU are to the beautiful Cosmos we all call home.
~All my Love, Boo)
Missing Boundary at Edge of the Solar System, NASA's IBEX Reveals
For the last few decades, space scientists have generally accepted that the bubble of gas and magnetic fields generated by the sun -- known as the heliosphere -- moves through space, creating three distinct boundary layers that culminate in an outermost bow shock. This shock is similar to the sonic boom created ahead of a supersonic jet. Earth itself certainly has one of these bow shocks on the sunward side of its magnetic environment, as do most other planets and many stars. A collection of new data from NASA's Interstellar Boundary Explorer (IBEX), however, now indicate that the sun does not have a bow shock.
The two Voyager spacecraft have confirmed the existence of the first boundary, and have seen evidence for the second as they move toward it. However, each Voyager spacecraft has seen different things on their respective trips -- one moving in a more northerly direction, one moving more to the south. They've encountered different regions at different distances from the sun, suggesting the very shape of the heliosphere is squashed and asymmetrical. Scientists believe this asymmetry is caused by the force and direction of magnetic fields ramming into the heliosphere from outside, the same way a hand pushing on a balloon will force it out of shape. This was the first clue that there's a strong magnetic field exerting pressure on the outskirts of the solar system. Independently, IBEX has seen a well-defined band, or ribbon, at the edge of the heliosphere, believed to be defined by this external magnetic field. Other studies from IBEX have helped quantify the magnitude of the magnetic field, showing that it is on the strong end of what was previously thought possible.