sections of the twisted string

The twisted string is theory is based on one single particle. But it is flexible and can change its size. This is the crucial property, which has the most impact on the macro world.

The whole particle is an assembly of quantum matter. Each quantum has a constant velocity, but because of the structure the quantum is forced to spinning complex paths. The velocity of each section is different and therefore each section except the slowest has to oscillate.


This graphic is just a sketch, it shows only the basic structure of a twisted string.

  • Sphere
    • Rotating bar
    • Branches
    • Glue crossing
  • Tails

The center of the string contains a thick and hollow bar which is shaped like a dumbbell. The connection between the spheres is thick and each sphere has a branch attached. Each branch is making a semi cycle and they are hitting each other at the glue crossing. Afterwards they are twisted and they are forming a tail. The bar, the branches and the glue crossing are called sphere. The whole structure, including the sphere and the tail, is called wave particle.

untwisted string

An untwisted string has thick and hollow parts, but also thin and solid sections. The thickest part is the centre and each branch contains a bulb of the disrupted glue crossing. The thick parts are slower than the thin parts, the string gets twisted and the clue crossing is closing.

An unbalanced string has an auto twisting mechanism. The untwisting of a string is only temporary due to a collision with other twisted strings.

rotating bar

This part contains most of the quantum matter. The shape is like a bar with thick endings, similar to a dumbbell.

Every quantum is moving by a constant velocity, but because of the thickness of this part, they are forced moving around the horizontal bar axis and secondary in big circles around the centre of the bar. The length of the bar is oscillating and the path of the bar endings is an oscillating double helix.

Because of the forced complex spinning movement of this structure, it is the slowest part of the whole particle. If the whole particle is moving to the right, the rotating bar will be far left .

The rotating bar is the source of a constant momentum, because it determines the maximum velocity of the whole particle. Its velocity is constant, which is a fraction of the constant velocity of quantum matter and it is called speed of light. The bar determines the direction of the motion and the orientation of the whole particle.

The whole bar is rotating left or right. The direction of the rotation determines, if the whole particle is matter or antimatter.

two rotating branches shaping a sphere

At each bulb ending of the rotating bar is a small, but very long branch attached. Each branch is starting from the bar and ending in the glue crossing.

The rotation of the can be left or right. The quantum matter of each branch is rotating the same direction as the rotating bar. The whole branches are trying to rotate with the bar, but they are trying to move faster and therefore are oscillating. The oscillation is synchronized with the rotation of the bar. The two branches are rotating with the bar and shaping a semi-oscillating sphere.

The sphere causes the particle like behavior of the twisted string and its size determines properties like the energy of a single and free moving twisted string.

The sphere is the trap of the momentum particle. The size of the sphere is flexible, because the glue crossing can move. The diameter of the sphere determines the the trap size for other twisted strings.

glue crossing

The branches are tightened together at the glue crossing.

If the twisted string is trapped, the clue crossing can move. If it is moving towards the tail the diameter of the sphere increases, if it is moving towards the bar, the sphere size decreases. This process is called shaping.

Each distortion of the particle causes a motion of the glue crossing towards the tail. The particle size is growing and that means, it is losing energy.

It is also part of the the trapping mechanism. The size of the trap can be modified during and after the catching of one or two other twisted strings.

If the particle is trapped in a cluster and it i losing one of its binding partners, the particle loses a source of distortion and will find a better undisturbed motion by moving the glue crossing towards the bar. The particle is increasing its energy.


The tails of the twisted string are attached to the clue crossing. They are the prolongation of the two branches.

Because the tails are moving like the dragging string, they also are a "collision protection system", which is protecting the glue crossing and prevents the particle from untwisting. But they have another feature, which yield to a paradox mechanism. If there is another twisted string ahead, the tails are disturbing its motion until both collide. The glue crossing of the twisted string in the rear opens and the two twisted strings are chained. The "collision protection system" is just for field lines.

If the motion of the tail of a free moving twisted string is disturbed and the shape of the sphere is affected by the distortion, the whole twisted string will change its motion and this will be observed as refraction or interference. The tail causes the wave like behavior of the twisted string.

temporary distortions of the shape

If two or more twisted string are hitting each other, their shapes are temporarily disturbed. Each distortion forces a change in motion of the particles.

Each particle wants to gain an undisturbed shape and motion.

virtual permanent distortion of the shape

The ending tail of a field lines is interacting with a twisted string, but there is no permanent binding just a temporary distortion. But a constant stream of such temporary interactions is causing a virtual permanent distortion of the twisted string.

permanent distortion of the shape

Only the shape of trapped twisted string is permanent disturbed, except it is a free moving field line. But all clusters of twisted strings contains permanent disturbed twisted strings, like an unbalanced junction or a sling with an escapement spinning string.

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