> Astronomers have found a way to peer inside neutron stars and glimpse the exotic matter hiding in their cores. …
> … an increase in mass, and thus pressure, would alter the densest matter in some way, perhaps squeezing quarks out of the neutrons or maybe creating more exotic particles such as hyperons.
I noticed the article also mentions superfluid neutrons and superconducting protons. These are substances for which entropy is conserved, so the information on how the neutron star formed would be conserved for a great length of time.
sparkydoctor on
Neutron stars might be one of the most fascinating things in the universe. The more I learn about them the more fascinating they are!
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> Astronomers have found a way to peer inside neutron stars and glimpse the exotic matter hiding in their cores. …
> … an increase in mass, and thus pressure, would alter the densest matter in some way, perhaps squeezing quarks out of the neutrons or maybe creating more exotic particles such as hyperons.
I noticed the article also mentions superfluid neutrons and superconducting protons. These are substances for which entropy is conserved, so the information on how the neutron star formed would be conserved for a great length of time.
Neutron stars might be one of the most fascinating things in the universe. The more I learn about them the more fascinating they are!