An artist's conception of a pulsar (the blue-white disk in center) pulling in matter from a nearby star (the red disk at upper right).(Photo: NASA)

Neutron stars the densest objects in the universe will be the subject of a new NASA mission, the worlds first thats solely devoted to studying these bizarre outer-spaceobjects.

And talk about heavy: Neutron stars are so dense that a single teaspoon would weigh a billion tons."If you took Mount Everest and squeezed it into something like a sugar cube, that's the kind of density we're talking about," said NASA's Keith Gendreau.

The small instrument that will study neutron stars, known as NICER (Neutron star Interior Composition Explorer), will be installed on the International Space Station over the next week or so. It was on board the SpaceX spacecraftthatarrived at the station Monday.

A neutron star begins its life as a regular star that's about seven to 20 times the mass of our sun, according to NASA. When it runs out of fuel, it collapses under its own weight, crushing its core and triggering a supernova. What remains is an ultra-dense sphere only about 12 miles across, the size of a city, but with up to twice the mass of our sun squeezed inside.

NICER's 56 small telescopes will observe neutron stars, enabling scientists to determine their size and composition.

The mission will also study pulsars, which are neutron stars that can spin hundreds of times a second, emitting pulses of radiation as they do. Pulsars are like cosmic lighthouses, NASA said, whichappear to wink on and off as their spin sweeps beams of radiation past us.

Amazingly, pulsars could be used as navigation beacons for us earthlings. Pulsar navigation could work similarly to GPS on Earth, NASA said, providing precise position and time for spacecraft throughout our solar system.

"Unlike GPS satellites, which just orbit around Earth, pulsars are distributed across our galaxy," said Jason Mitchell of NASA. "So we can use them to form a GPS-like system that can support spacecraft navigation throughout the solar system, enabling deep-space exploration in the future."

He said that with this technology, the "G" in GPS could stand for Galactic, not Global.

NICER should be deployed in about a week and in full operation roughly a month after checking and calibrating the instrument, NICER science lead Zaven Arzoumanian said.

An artist's conception of what the NICER instrument (blue cube) will look like once it's deployed on the International Space Station.(Photo: NASA)

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NASA launching first-ever mission to study super-dense neutron stars - USA TODAY