Inside RHIC,
ordinary matter tends to melt into its fundamental constituents, with temperatures more than 100,000 times hotter than the center of the sun.
Not exact matches
B mesons are important because, as they decay into other, more
ordinary particles, they display a slight asymmetry: The antimatter versions
tend to decay more readily into
matter than the reverse.
Nevertheless, neutrinos ought to interact with the universe's mass on the largest scales: as these particles careen through the universe at near light - speed, they interact with
ordinary matter and
tend to smooth out variations in density.
The antiprotons
tend to congregate several hundred kilometers above Earth, where
ordinary matter is so scarce that they are unlikely to meet up with their particle counterparts — protons — and destroy each other on contact.
If this was an
ordinary scientific issue it really wouldn't
matter: graduate students
tend to avoid bad scientists and so denialists die out.