Wandering Meteor

The neutron star orbiting at the outer periphery of the Wandering Star System was captured from the Pegasus Supernova Remnant.

As for the three neutron stars previously captured in the Ring Nebula by the Wandering Star System, all were invested in the Star Zone during the passage through the Star Realm Tunnel; one neutron star was destroyed by the Earth Core Alliance, and two neutron stars in the Star Zone absorbed a large amount of matter to become black holes.

Subsequently, the two black holes merged into a larger black hole.

The current situation remains unknown.

This time, Constant Star Lu Chen still intends to utilize the neutron star, but not to turn it into a black hole; instead, he plans to detonate it.

The mass of this neutron star is over ten thousand Constant Star Masses, left over from the Pegasus Star Supernova Explosion, which had over fifty thousand Constant Star Masses—larger than any of the three previously captured neutron stars. If it truly detonated, the energy generated by the explosion would be unimaginable and incalculable.

However, to fully detonate a neutron star of such massive size, the required "ignition" is extremely terrifying. Otherwise, the explosive force would not be able to counteract the gravitational collapse of the neutron star, let alone detonate it.

This is why Constant Star Lu Chen requested that all the Battle Stars of the Wandering Alliance use the Singularity Bomb together.

Because, according to scientists’ calculations, with the current weapon power of their Singularity Bombs, at least nine Singularity Bombs are needed to detonate the neutron star.

And while a single Singularity Bomb can easily destroy a planet, and if it strikes the center, even a star could be destroyed, nine Singularity Bombs are needed to detonate a neutron star, which indeed proves that neutron stars are rightfully the celestial bodies closest to black holes, with extremely high gravitational density!

At the same time, one can imagine.