laser ion plasma engine

The scheme of the laser-ion plasma engine includes the following main components:

1. Ion engine: There is an ion generator inside the engine, which is responsible for the gas ionization process and the creation of an ion flow. The gas is supplied through a special entrance to the engine.

2. Laser system: Lasers are used to ionize gas atoms. They generate high-energy beams that are directed at a target inside the engine.

3. Accelerator electrodes: The electrodes are placed inside the motor and create an electric field that accelerates the ions, creating thrust. The accelerator electrodes maintain a potential difference between each other, which ensures the acceleration of ions.

4. Control system: The control system is responsible for controlling all processes in the engine, including lasers, electrodes and other components. It can also adjust the laser energy and the strength of the electric field.

5. Focusing optics: Optical elements are used to focus the laser beam on a target inside the engine.

6. Outlet nozzle: After passing through the ion generator, the ions leave the system through the outlet nozzle. The nozzle generates the ion flow in such a way as to ensure maximum efficiency and a set of speeds.

The scheme of the laser-ion plasma engine makes it possible to use the effects of ionization and photoelectric action to accelerate ions and generate thrust. This type of engine has high efficiency and can provide a long time

Hypersonic space jump using plasma detonation propulsion is a process in which a spacecraft achieves supersonic speeds by using high-temperature plasma as fuel.

The operation diagram of a plasma detonation engine is as follows:

1. The initial stage is the activation of the plasma reactor. To do this, it is necessary to create conditions for the formation of plasma, for example, by applying a high-frequency electric current.

2. Acceleration phase - as a result of the reaction in the plasma reactor, high-temperature plasma is formed, which is accelerated in a special engine nozzle system.

3. Detonation phase - upon reaching a certain speed, the plasma undergoes detonation, which leads to additional acceleration of the spacecraft.

4. Hypersonic jump - as a result of plasma detonation, the spacecraft reaches supersonic speeds, breaking the sound barrier.

Thus, the plasma detonation engine makes it possible to provide powerful acceleration of the spacecraft and achieve hypersonic speeds in space.