There are two different kinds of interaction
The twisted string has some features in common with the wave particle. Like the wave particle, the size of the sphere and the oscillation of the tail determines the interaction. In contrast to the wave particle, the spinning of the sphere and the two tails are corresponding.
If two twisted string with nearly the same size are colliding, the motion of both particles will be distrurbed.
This effect is called diffusion and it doesn't keep the linear momentum .
If a twisted string hits a cluster of twisted strings, the motion of the tail spinning in front could be disturbed.
This effect is called refrection or interference.
The trapping mechanism of a twisted string differs from a wave particle.
If the two colliding strings have an opposite basic spinning, the two particles will be disintegrated to some little gamma strings. Because the gamma strings are the fragments of the collision, there are more than two. This collision of matter and antimatter strings is called Annihilation.
There is no Conservation of linear momentum.
The trap can be stable or unstable. A unstable trap is called pair production. A stable trap depends on the size, which corresponds with the trapping process. High energy traps are created by stellar nuclear synthesis and are called, protons and neutrons. These cluster of trapped twisted strings can catch other twisted strings, which are called electrons. The catching process doesn't need a cluster of other trapped strings, two or more free moving twisted strings could be trapped. But this could only happen, if there are a lot of surrounding strings, which disturb the motion especially of the glue crossing protecting tail.
An electron, which connects two clusters of nuclear trapped strings is called a molecular orbital.
Temporary stable connections are called heat.
Temporary stable connections, which disturb the equilibration of the osculation of the cluster, is called kinetic energy.
Penetration is a new feature, which a wave particle doesn't have.
Tunneling is also an additional feature.
If the glue crossing of a trapped twisted string is hit by chance, the trapped string could be untwisted and it can escape.