The post A Puzzling Radio Signal Took 200 Million Years To Reach Earth, And Now We Can Confirm It Came From A Neutron Star appeared first on Chip Chick.

Just a sugar cube of neutron star matter would weigh about one hundred million tons on Earth. A neutron star's almost incomprehensible density causes protons and electrons to combine into neutrons ...

"Neutron stars are massive gravitational monsters, and orbiting one wouldn't end up well for our planet. But what if we took just a spoonful of it and transported it to Earth?

Neutron star "mountains" would be much more massive than any on Earth—so massive that gravity just from these mountains could produce small oscillations, or ripples, in the fabric of space and time.

The team used advanced numerical simulations to model the magneto-thermal evolution of these stars, finding that a specific dynamo process within the proto-neutron ... than the Earth's magnetic ...

Using radio telescopes, astronomers can "see" pulses of radio waves from Earth as the neutron star spins, with the movement regularly described as like a "cosmic lighthouse". Later in the ...

Neutron stars are very small and dense stars, where roughly half a million earth masses of material are squeezed into a city-sized volume with a radius of 10 km.

A teaspoon of a neutron star would weigh as much as one of Earth’s mountains. 4. Neutrons are slightly heavier than protons Neutrons decay quickly if they are not 'glued' next to protons in a ...

The team used advanced numerical simulations to model the magneto-thermal evolution of these stars, finding that a specific dynamo process within the proto-neutron star can generate these weaker ...