RU2302604C1 - Method for prevention of invasion from space - Google Patents

Abstract

FIELD: armament, in particular, laser weapon.

SUBSTANCE: the method for prevention of invasion of a target from space consists in placing of fighting lasers with a thermonuclear pumping in the orbits. The orbital fighting lasers with a thermonuclear pumping have a source of laser radiation with an objective lens, power unit and a device for guidance to the target and scanning with the use of a controlled movement of the scanning laser beam. The orbital fighting lasers are oriented in the orbits into two groups with formation of a grid by their laser beams.

EFFECT: provided a complete automation of the combat operations by the laser beam in the space.

2 dwg

Description

The invention relates to weapons, in particular to laser weapons for use in space.

A laser is a device for producing high-intensity and narrowly directed beams of monochromatic light radiation. The laser was created in 1955 by Soviet scientists A. Prokhorov. and Basov N.G. There are various types of lasers - gas, liquid and solid state. Laser radiation can be continuous and pulsed. In practice, lasers of various powers are used. The most powerful lasers are used in armaments. The action of laser radiation is based on a sharp increase in temperature in the irradiated area, which causes the destruction of the material: fusion or evaporation.

A known method and device for conducting military operations on the Internet site http://lasermed.ru "Lancet-1", the device contains a laser and a lens for supplying laser radiation to a biological object, for example, to excise a benign (or oncological) tumor.

Known laser installations are described on the Internet site http://www.inp.nsk.ru (prototype), containing a source of laser radiation - an optical quantum generator and a power unit.

The disadvantage of this laser is its low power and the lack of automation for controlling the direction of the laser beam.

Objectives of the invention: expanding the provision of full automation of military operations carried out by a laser beam.

The solution to this problem was achieved in a method of preventing invasion from space through the use of fusion-pumped orbital lasers containing a laser radiation source, a power unit, and a targeting and scanning device using controlled movement of the scanning laser beam along the contour of the irradiated surface of the target, while simultaneously moving the scanning laser beam in a closed circuit change the spatial position of the lens by its radial and circumferential eremescheniya with simultaneous change of the angle of inclination to the target surface, so that the orbital lasers oriented to combat orbits in two groups so that their laser beams form a grid. All fusion-pumped orbital combat lasers contain a device for monitoring the target’s irradiated surface in the form of a digital video camera. All fusion-pumped orbital combat lasers are designed for circular, radial movement and rotation.

The proposed technical solution has novelty, inventive step and industrial applicability.

Conducted patent research and analysis showed that the proposed technical solution has novelty, inventive step and industrial applicability. The inventive step is ensured by the fact that a new set of essential features, necessary and sufficient for the implementation of the method, allows to obtain new properties: a significant increase in the efficiency of the operation.

The invention is illustrated in the drawings of figures 1 and 2, where:

figure 1 shows a diagram of the organization of defense,

figure 2 shows a schematic diagram of an orbital combat laser.

The defense organization scheme (Fig. 1) contains several orbital combat lasers 1.

Orbital combat lasers 1 (figure 2) are intended for the impact of laser radiation on the target for its destruction or incapacitation. They contain a laser head 2 with a lens 3, a fusion reactor 4 and a computer 5.

The orbital combat laser 1 comprises a cylindrical (or toroidal) housing 6, a radial guide 7, a video camera 8, a base 9. The laser head 2 and the video camera 8 are connected to a computer 5. The laser head 2 is also connected to an energy source of a thermonuclear reactor 4. The lens 3 of the laser head 2 is mounted on the radial guide 7 with the possibility of movement and, in addition, pivotally. The hinge in figure 2 is not shown.

To hit the target 10 on its surface, rotate the cylindrical body 6 and simultaneously move the laser head 2 and deflect the lens 3. In this case, the laser beam cuts the material on the surface of the target 9 in a cone.

The application of the invention allowed:

1. Fully automate hostilities with space aliens and prevent potentially dangerous objects from falling onto the ground.

2. To control and reliably adjust the radiation power, carrying out an attack at the maximum possible modes.

3. Conduct extremely fast aiming.

4. Get a visual interpretation of the result of the operation.

5. Ensure the effects of powerful laser radiation on potentially dangerous objects, including alien warships and asteroids.

6. Use standard mass-produced equipment, such as a laser and a video camera of any brand and a Pentium personal computer of any configuration.

Claims (3)

1. A method of preventing target intrusion from outer space, including the location on orbits of fusion-pumped combat lasers containing a laser source with a lens, a power unit and a targeting and scanning device using controlled movement of the scanning laser beam along the contour of the irradiated surface of the target, while simultaneously by moving the scanning laser beam in a closed circuit, the spatial position of the lens is changed by its radial and circumferential movement from the same a gradual change in the angle of inclination to the target surface, characterized in that the orbital battle lasers are oriented in two groups on the orbits with the formation of a grid laser beam. 2. The method according to claim 1, characterized in that the orbital combat lasers contain a device for monitoring the irradiated surface of the target in the form of a digital video camera. 3. The method according to claim 1 or 2, characterized in that the orbital combat lasers perform with the possibility of circular radial movement and rotation.

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