University of Utah physicists read the subatomic «spins» in the centers or nuclei of hydrogen isotopes, and used the data to control current that powered light in a cheap, plastic LED — at room temperature and
without strong magnetic fields.
Not exact matches
On a bursting pulsar, though, the incredibly
strong magnetic field would help the hydrogen to cool and pile up
without fusing.
In fact, we can't make
magnetic fields stronger than a million gauss or so
without our machines just breaking down from the stress.