If carbon dioxide laser can give CSi nanocrystal laser energy, it can produce about 1 time laser output.
The appearance of this kind of CSi nanocrystal makes the laser go from science fiction to reality to some extent.
There are still some advantages in the atmosphere, but the high conversion efficiency of CSi nanocrystal lasers entering the outer space will play the greatest role
It can be used not only for laser weapons but also for spacecraft to dissipate heat and leave the engine.
Ultra-high light conversion efficiency can convert a part of waste heat into energy and then emit it through a laser to solve the problem of inefficient radiation and heat dissipation of spacecraft.
The heat dissipation of spacecraft is also a difficult problem for laser response.
If 9% of the old carbon dioxide laser can eventually become waste heat and then accumulate in the spacecraft department, the spacecraft will overheat and serious problems will probably lead to the scrapping of the spacecraft directly.
However, the high-efficiency CSi nanocrystals can reduce 9% of laser waste heat if they are added with thermoelectric generation base, which makes it possible for the laser to be outside the equipment.
Similarly, the laser neutral phase technology of off-engine is also applicable.
Or directly using laser sail propeller can also achieve high specific impulse to accelerate the spacecraft in the sky.
CSi nanocrystals are such versatile materials.
Chapter four hundred and ninety-nine Defense System
June 15th
At present, only a scientific research base codenamed "Tanggu Base" is being built in the original area of Gobi Desert in the Altai of Mobei.
This base is the construction department of Huang Xiuyuan, and not many people know that the base has the official name "Altai Energy Research Institute", which is mainly engaged in wind power and solar energy research.
But in fact, it is a local base for selling dog meat, and a huge area is being built.
Not many people know the true face of Lushan Mountain when they study something specifically.
At the same time
Huang Xiuyuan has not been idle these days, except testing the data of CSi nanocrystals and waiting for CSIC to send the experimental ship.
Finally, on the 15th, two ships were ordered six months ago, and finally arrived at Shanmei Zhelang Shipyard.
This kind of ship was ordered by Huang Xiuyuan from CSIC at the end of last year. There was a requirement that the ship department should be designed as a gas turbine for producing carbon powder.
In addition, several interfaces are reserved on the deck for laser cannons.
Obviously, this kind of ship technology is not much difficult. Gas turbines have ready-made ships, and there is no need to consider too high protection or gun recoil.
The foundation of a 120,000-ton displacement bulk carrier was directly transformed by CSIC, and the design was completed after a design drawing.
After the completion of the construction, it was sent to Shanmei and handed over to Suiren Company for secondary transformation.
Followed by two ships, there are more than a dozen engineers and technical officers from the naval equipment department
Zhelang shipyard
Dock no.5
This is a closed dock with a painted gray boat lying inside, which is one of the two launches.
At this time, snail industrial engineers and more than 50 technicians are busy installing two experimental laser cannons on the deck interface platform.
Huang Xiuyuan body double Robot is watching the installation process with Senior Colonel Du Fengqin and Dr. Hu Yi from the equipment department.
Get the design parameters of the laser gun. Dr. Hu Yi is looking through it carefully.
This laser cannon is temporarily code-named "Houyi laser cannon" and adopts a CSi nanocrystal with a radius of 15 cm and a length of 12 cm.
In addition, there are supporting flywheel energy system, superconducting circuit system, automatic azimuth rotating platform and fire control radar system.
According to the design, a ship can accommodate six Houyi laser cannons.
The effective distance from the real Houyi laser cannon to the atmosphere is very excessive. After all, it is a problem that the blue star has radian and the land-based sea-based laser cannon can break through the curvature of the planet’s ground. The ideal one is the satellite in near-earth orbit.
However, to some extent, the appearance of laser cannons also made up for the weakness of the unification of the sky, which was easily broken by hypersonic ballistic missiles.
In many tests, the erosion cloud of awning system is easy to be damaged by hypersonic shock bomb, which leads to failure.
In the first phase test, when the flying object exceeds 64 times the speed of sound, the shock wave can effectively erode the cloud; When the speed exceeds 12 times the speed of sound, the canopy foundation fails.
The laser cannon effectively makes up for the shortcomings of the sky curtain system. After all, ballistic missiles are no faster than lasers.
The speed of light attacks the laser cannon, but it will be destroyed before the other side gets close.
At present, ballistic missiles are usually divided into three flight stages: ascending stage, high stage and re-entry stage.