This is the Sun.
And this is a neutron star.
But don't let its size fool you.
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?
Such a tiny amount of a neutron star
couldn't possibly destroy us all...
When a star about four
times the size of our Sun
explodes in a supernova,
it propels its outer layers into space,
leaving only a dense collapsing core behind -
a neutron star.
Neutron stars are very, very dense.
They could have the diameter of a small city,
but their mass would be
1.4 times the mass of our Sun. 
Of course, no neutron star
will ever appear on our planet by itself.
First, you'll have to grab a spoonful of it
and bring it back to Earth.
You'll find the nearest neutron star,
nicknamed Calvera,
617 light-years away from Earth.
If you jumped in the fastest
spaceship we've ever built,
it would still take you 11 million years
to travel to Calvera.
I'll have to fast forward here and meet you
in the neutron star's neighborhood.
You'd be trying to get your spacecraft
through a magnetic field that's
tens of millions of times stronger than Earth's.
Your ship's computers would be useless
if they had any ferromagnetic materials
like iron, nickel or cobalt in them.
You wouldn't want any of those materials
anywhere in your craft.
You'd have to dodge the
electromagnetic radiation beams
shooting from the star
faster than you can blink.
And then, when you finally managed
to get to the surface of Calvera,
you'd be immediately vaporized
due to the temperatures being
around 1 million degrees.
Celsius, Fahrenheit -
at this point, would it even matter?
Any part of your craft that wasn't vaporized,
would be crushed by the star's intense gravity.
But let's not end your story right there.
Instead, let's equip you with a super suit
that could withstand the
insanely hot temperatures
and extremely high pressure of a neutron star.
And here you have it -
a spoonful of Calvera loaded on your ship.
Now what?
If you tried to scoop the Sun with a teaspoon,
you'd only get about 2 kg (5 lbs) of it.
The same amount of a neutron star
would weigh anywhere from one billion
to six billion tonnes.
You wouldn't be able to lift
that spoon in the first place.
And that's not even the worst part.
Because the gravity of
a neutron star is so intense,
it fuses protons and electrons together.
Only neutrons are left in that stellar core.
When they aren't buried down inside a star,
neutrons don't last too long.
After ten minutes, the scoop of a neutron star
would break down into protons and neutrons,
and release as much
energy as the Sun produces
in two or three seconds.
Good thing you didn't have enough time
to bring that stuff back to Earth.
Leave neutron stars where they belong -
far, far away from us.
And if one ever comes
a little too close to Earth,
jump on a spaceship
and escape to another planet
outside the Solar System.
But that would be a story for another WHAT IF.
