Cosmic Superstrings

(Note: See Non-Local Links and Wormhole Drive if needed).

In an area of degenerate space if enough non-local links intersect each other then the energy, confined to such a small region, is intense enough to induce a phase change and an inflation of space which can cause a sub-microscopic superstring to blow-up to a macro size. It is similar to what happens when the wormhole drive puts too much energy into a point, in that case space disintegrates, but in this case it blows up and enlarges anything in it. The difference is the time of concentration, the wormhole drive concentrates the energy in a rather short amount of time while the mechanism that creates a macro-sized superstring adds it more slowly.

A cosmic superstring, even at a relatively small size, would have the gravitational influence of a large asteroid. 

When a superstring is open at its ends, that is, it doesn't form a loop, the straight superstring will have no gravitational potential and therefore an object would feel no force of gravity around the superstring. But a superstring can have several modes in which sometimes it is completely still and straight and at other times it is vibrating. These modes pass in and out of existence and that is when an object will, or will not feel the superstring's gravitational force.

There are two problems that can occur with a superstring. One is that the superstring continues to grow in mass-energy and it's gravitational effects increase until they affect the orbit of any object around it. The other is that the string continues to grow in length.

While there may be some mass-energy gains as it lengthens the superstring can also wiggle enough to cross itself. And when a cosmic superstring crosses itself, it will detach at that point and become two superstrings and a loop. The strings are of no concern but the loop begins to dissipate rapidly through gravitational wave radiation, powerful gravitational radiation.

The gravitational waves generated by such a superstring loop can destroy any mass close to it. The waves passing through the mass will stretch and squeeze it until it becomes molten.