Could
an extremely strong magnetic field force CO2 to dissolve in significant amounts?
A magnetar is a neutron star with
an extremely strong magnetic field, strong enough to rip atoms apart.
These jets require
an extremely strong magnetic field that appears to be associated with the creation of a black hole with a debris disk.
Later on in life, it looks like the magnetars we see in our galaxy, which have
extremely strong magnetic fields but rotate more like ordinary pulsars.»
Possible explanations for the repeating bursts range from outbursts from rotating neutron stars with
extremely strong magnetic fields, to speculation that they are directed energy sources used by extraterrestrial civilizations to power spacecraft.
Not exact matches
If a neutron star is left, it may have a very
strong magnetic field and rotate
extremely quickly, emitting a beam of light that can be observed when the beam points towards Earth, in much the same way as a lighthouse beam sweeping past an observer.
«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.
In the storage ring, the electrons are deflected from their trajectory by
strong magnetic fields to produce the
extremely bright photons know as synchrotron light.
Astronomers believe that these are spinning neutron stars (
extremely dense objects formed from the collapse of massive stars) with
strong magnetic fields that emit radio signals in one direction.