However,
because axions react so little — and the reactions they are likely to produce are so faint — finding them is tricky.
Not exact matches
Aiichi Iwazaki at Nishogakusha University in Tokyo says that
because the early universe was smaller and offered more chances for
axions to attract each other, they would have clumped together to form
axion «stars».
That wouldn't explain the repetition seen from FRB 121102,
because neutron stars don't have accretion discs that would simply pull material off the
axions rather than destroying them.
There have been previous efforts to locate the
axion, but there is greater interest in the Axion Dark Matter Experiment because of recent developments in physics rese
axion, but there is greater interest in the
Axion Dark Matter Experiment because of recent developments in physics rese
Axion Dark Matter Experiment
because of recent developments in physics research.