RU2004110880A - ELECTRON-DYNAMIC APPLIANCE, METHOD OF ITS FORMATION, METHODS OF ITS ACCELERATION AND A GUN FOR SHOOTING BY ELECTRON-DYNAMIC APPLIANCES - Google Patents

Claims (9)

1. An electron-dynamic projectile containing electrons, characterized in that the electrons in it are located inside a toroidal vortex ring, which is formed and stabilized by the organized movement of electrons moving along trajectories inscribed in this toroidal ring. 2. A method of forming and accelerating an electron-dynamic projectile, which consists in using electron accelerators to create and accelerate electron beams, characterized in that these beams are twisted with a magnetic field and form a rotating closed ring electron cloud, then using a varying electromagnetic field they compress and twist a cloud of electrons into a toroidal ring and push it out of the nozzle of the gun with a directed magnetic field towards the enemy. 3. The method of dispersal of the projectile, which consists in the force acting on its bottom, characterized in that the projectile is accelerated by a laser beam aimed at the bottom of the projectile. 4. The method of accelerating the projectile and controlling it, consisting in the force acting on its bottom, characterized in that the projectile is accelerated and controlled by at least one laser beam circling the bottom of the projectile in a circular path, and to change the direction of the projectile different sections of the scanned surface of the projectile change either the power of the laser radiation or the speed of circular rotation of these sections with each beam so that the projectile trajectory changes in the desired direction, taking into account the gyroscope effect. 5. A gun for firing electronically dynamic projectiles, containing power sources and a housing inside which an annular chamber is located, characterized in that devices generating electron streams are mounted on the outer circumference of the chamber, connected to accelerators such as electron guns directed from the outer circumference of the chamber tangentially to the center of the chamber, with deflecting solenoids and holding focusing solenoids placed on the end surfaces of the chamber, inside the chamber along its circumference face electrode, and in the center of the chamber there is a central electrode with an opening for the passage of the laser beam, the camera itself has a nozzle for the exit of the electrodynamic projectile located in the end of the chamber facing the target, pushing and accelerating the solenoid mounted on the opposite nozzle of the end surface of the camera and having an opening for the passage of the laser beam and a spiral winding, and under the ejecting and accelerating solenoid there is an accelerating laser installed so that its beam passes through the opening into the ejector vayuschem solenoid and the central electrode chamber through the nozzle outwards towards the electron is accelerated by the dynamic projectile. 6. The gun according to claim 5, characterized in that the deflecting solenoids have a conical shape with a hole in the center, are mounted on the end sides of the chamber above and below and are connected to a power source so that the pole of the magnetic field of the upper solenoid facing the electron ring is opposite to the upper pole of the lower solenoid, also facing the ring of electrons. 7. The gun according to claim 5, characterized in that the holding and focusing solenoids are mounted on the upper and lower end surfaces of the chamber opposite the electron ring with the possibility of mutual overlap and are connected to a power source so that their fields directed to the rotating electron ring create a stabilizing the force applied to the ring of electrons depending on the control signals of the control system and holding the ring in the gun chamber. 8. The gun according to claim 5, characterized in that the chamber and its solenoids (coils, electromagnets) are surrounded by a ferromagnetic screen made of ferromagnetic metal, ferromagnetic ceramic or ferromagnetic plastic and a biological protective shield that absorbs electromagnetic radiation and other radiation harmful to health. 9. The gun according to claim 5, characterized in that its solenoids (coils, electromagnets) are fully or partially made of superconducting materials and (or) light conductive metals or alloys.