This paper explores the possibility of unifying the four fundamental forces with dark matter and quantum entanglement. It was found that when dark matter has quantum entanglement, the dark matter vortex forms and the dark matter outside the vortex will expand. This will slow down the matter and dark matter being involved in the vortex. The dark matter inside the vortex will also expand under the effect of the rotating compression force. The expansion force is proportional to the internal rotation speed of the vortex. From the edge to the core, the expansion force increases with the increase of the rotational compression force, and the dark matter at the core expands the most. When matter spirals into the center of a vortex, it forms a compressive force through its spin, which compresses dark matter towards the core, creating a gravitational layer. Outside this gravitational layer, dark matter is compressed and expands, forming a high expanded zone with a diameter equal to the radius of the gravitational layer. This creates four concentric layers from the center to the outer edge of the vortex: the gravitational layer, the high expanded zone outside the gravitational layer, the expansion-compression zone, and the outer expansion zone of the vortex. The high expanded zone is within the expansion-compression zone. The smallest vortices have only the gravitational layer and the outer expansion zone, without the expansion-compression and high expanded zones. The largest vortex is the universe, which has no external expansion zone. The density of the gravitational layer and the outer expansion zone can be controlled by controlling the rotation speed of dark matter vortices. This principle can also be used to control dark matter vortices for nuclear fission and fusion, create aircraft, and control and form celestial bodies and black holes.