The spacecraft power system developed based on the laser pointer theory can greatly reduce the fuel consumed during the acceleration and deceleration phases of interstellar navigation. and only the fuel carried by the spacecraft itself can be satisfied. After reaching the target stellar system, the spacecraft will automatically calculate a stable orbit. By using huge solar panels to supply energy at this stage, the area of solar panels designed by scientists will reach hundreds of square miles. The energy of stellar light will be converted into laser energy and a quantum effect will be created by the Schwinger electron couple to create antimatter from the vacuum.
As we believe in classical physics, vacuum does not lack matter and energy, but it is also a stage where quantum effects are active. After Dirac discovered the relativistic quantum mechanical equations describing the motion of electrons, a Nobel laureate and physicist Julian Schwinger realized that a sufficiently strong electric field could create positron-negative electron pairs. When the intensity of the green laser pointer is greater than a certain threshold value, vacuum polarization can induce the generation of electron couples. However, a prerequisite for achieving this process is a strong electric field. The current progress in laboratory research has led to increased hope for it. and it has been discovered that lasers can quickly help us achieve this very critical electric field.