Not exact matches
«Chaotic
magnetic field
lines may answer the coronal heating problem: Scientists show how chaotic
magnetic field
lines result in
stronger current sheets and extreme heating of the sun's corona.»
These stresses arise because the Sun's
magnetic field
lines have a
strong tendency to push one another apart.
In the image above, blue
lines track
strong magnetic field
lines directed one way, while those in magenta trace powerful
lines in the opposite direction.
The researchers found that applying a
strong magnetic field to these ultracold atoms caused them to
line up in an alternating pattern and lean away from each other.
The neutron star (red sphere) with its
strong magnetic field (white
lines) spins around itself nearly 30 times per second injecting energetic electrons in the space region around it.
These could be used to build superconducting power
lines, or even extremely
strong magnets, which Balicas says could «open frontiers» in
magnetic scanning of everything from gene structure to brain activity.
If the cyclotron
line is from circling electrons, in contrast, then the
magnetic field strength around the neutron star would not be exceptionally
strong, and thus the field is probably not the reason these stars break the Eddington limit.
«If the cyclotron
line is from protons, then we know that these
magnetic fields around the neutron star are extremely
strong and may in fact be helping to breaking the Eddington limit,» says Brightman.
The energy input from Saturn's magnetospheric interaction shows a
strong interaction with Titan's atmosphere and the corresponding induced magnetosphere with draped
magnetic field
lines.
Red and pink
lines represent
strong magnetic fluctuations, while blue and yellow
lines reveal weaker changes
So here's the bottom
line: the romantic relationship that is brought together by an interminably
strong magnetic force will survive the test of time as it adheres to the human instinct to find and stay with a partner who is uniquely compatible and familiar.