Traveling through the sword to engage in military industry.

Chapter 231: Subsequent Developments of the Physical Salvation of the Japs

At the Yanjing Airport, six Japanese Zero fighter squadrons had just transferred here. The elite pilots of the Japanese army came out of their fighter planes with proud looks on their faces, looked at the Japanese soldiers who had come to greet them at the airport, and walked with bow legs as if they didn't recognize any relatives, ready to go and enjoy the food.

Little did they know that in the sky, the super fire, which came like three beautiful rainbows, was already very close!
"What is that?" A Japanese soldier happened to look up and saw the flamethrower rockets like a rainbow in the sky, and asked in confusion.

"What?" The Japanese soldier next to him looked in the direction pointed by the Japanese soldier in confusion, and saw the beautiful and almost weird rocket fireworks. Suddenly, his face changed.

"That's an enemy attack!" the little Japanese soldier howled loudly.

However, it was of no use. The rocket flying in the sky like lightning suddenly exploded in the air more than 100 meters above the ground, bursting out countless cluster bombs, which then sprayed out and began to cause a secondary explosion!
Suddenly, within thousands of square meters of the center of the rocket explosion, there were flying metal fragments everywhere!

No matter whether it was the running and shouting Japanese soldiers or the fighter planes staying on the ground, if they were touched by these fragments, a hole as big as a finger would be left!

At least dozens of Japanese soldiers and more than a dozen fighter planes suffered devastating blows in this wave of attacks.

And in the affected areas, there were more injured Japanese soldiers and fighter planes.

However, this was just the beginning. Less than ten seconds later, the second and third rockets arrived one after another, staggered by about 1000 meters, covering most of the Yanjing Airport in the killing range!
The intelligence officer hiding in the cellar heard a deafening explosion, but did not get up to observe. Instead, he silently counted the time, waiting for the second and third thunders. Then, after waiting for more than ten seconds, he secretly poked his head out to observe the airport 2 kilometers away.

Through the telescope, the Japanese fighter planes that were originally parked neatly were now almost turned into junk, and some even began to catch fire and smoke.

As for the ground, there were many Japanese soldiers lying there in a mess.

The intelligence agent very patiently counted the damaged fighter planes at the airport, and only hid them back in the cellar after counting all the fighter planes at the airport.

Start the last message.

"54"

Then he went into silence, waiting for the night to fall. He needed to see if there were any gaps in the Japanese defense after dark. If there were no gaps, he would continue to lurk.

They didn't try to leave until the Japanese defense became less tight.

In this cellar, there are some simple food and water that can last for several days.

However, the intelligence officer had no reinforcements and had to rely on himself to escape, which was obviously an extremely difficult task.

When the border region staff received the news from the undercover intelligence agent, everyone jumped for joy.

Because this news meant that the Japanese's advanced fighter planes, such as the Zero fighters, were destroyed at once, and the Japanese now had to start all over again.

Regardless of whether the Japanese will need to make reinforcements in the future, at least it has been verified that the long-range unmanned attack mentioned by Ren Zhong can now be put into actual combat conditions.

This is a secret weapon in the hands of the border area. In the short term, the Japanese have no room to resist.

Judging from current actual combat, this is the only means of attack against the Japanese's tightly blocked airports.

Ren Zhong was not too surprised by this result. A combat mission that could have been completed with two rounds now required three rounds. The accuracy was not enough, but the quantity was used to make up for it. This was something that could only be done after achieving ammunition freedom.

Now, destroying a small Japanese airport was completely within Ren Zhong's expectations.

After all, from a technical point of view, the current generation of Dongfeng 1A rocket is completely comparable to Dongfeng 2. The navigation method and propellant are almost the same. Even the accuracy of the gyroscope has now exceeded the level of the Dongfeng period, so it is not surprising that it has achieved results comparable to those of Dongfeng .

Through this actual combat test, Ren Zhong felt that Dongfeng 1A could be produced to a certain extent, especially in terms of propellant and core components, which could now be calculated in hundreds. This provided a very good foundation for the subsequent attacks on the Japanese airports and large barracks. According to the technical level of Dongfeng 1A, it now has the ability to cover the entire North China.

If the Japanese had gathered their troops, we could just hit them with one shot and wipe out their regiment-level garrisons in one wave.

However, this requires the scouts lurking in the front to have extremely strong latitude and longitude measurement capabilities to ensure that the accurate latitude and longitude range of the Japanese base is measured clearly and sent to the border area.

If it didn't have this ability, then this thing would be like a blind man and would not be able to hit any useful targets.

More importantly, future rockets need to evolve further and begin to require more advanced technologies to support them.

When Ren Zhong was considering this, he had already included the research of a new generation of theodolites into his plan. In the main world, measuring longitude and latitude is a very simple matter. With a mobile phone, one can easily measure longitude and latitude with an error of meters.

However, in this time and space, there are almost no intelligent devices, let alone positioning and measurement based on satellites. The sextant developed by the Institute of Optics can certainly be considered a very good tool, but it is not easy to use and the entry threshold is relatively high. Ren Zhong is considering the feasibility of bringing modern photoelectric theodolites into the world of Liang Jian.

Although it is difficult, it is not completely impossible.

As long as it does not rely on satellite navigation and is achieved purely through optical means, according to the current technical capabilities of the Institute of Optics, it is already possible to produce everything from long-range infrared telescopes to laser positioning telescopes.

Many technologies have surpassed this era, but high-end technologies such as satellites are not yet possible to realize, so all satellite-based applications are not possible to realize now.

Next, it's not just these things. There are many new computer-based gadgets that Ren Zhong cannot transplant now. Therefore, in the next stage of key research, electronic technology has become a very priority option.

The technological breakthrough of transistors enabled Ren Zhong to break through the most important link of transistor computers.

The original schematics and computer language of the Shensuan generation of transistor computers have been moved to the world of Liangjian and are now being studied.

Faced with a completely new field, Ren Zhong did not have much understanding and could only try his best to move relevant information from the main world.

In this time and space, the most intelligent mathematicians and physicists of our nation began to digest and absorb, and began a difficult evolution. Only when the functions of computers are realized will a new generation of weapons have a foundation.

The research on vacuum tube computers has now produced results, but Ren Zhong has no plans to introduce them.

Because Ren Zhong knew very well that vacuum tube computers had a short lifespan, and were large in size, consumed a lot of power, generated a lot of heat, had a short lifespan, and had low reliability. Given that breakthroughs had already been made in the basic technology of transistors, there was no need for Ren Zhong to invest in this backward technology.

Since the first vacuum tube computer was invented in 46, it was eliminated in the 50s. An investment in such a life cycle is really not cost-effective.

Relatively speaking, transistors have a longer lifespan and can be used until the 1970s. In addition, transistor computers are close to the concept of modern computers, and the concept of operating systems has been proposed. Advanced programming languages ​​such as FORTRAN and COBOL have also been developed and applied. These technologies can be applied to integrated circuit computers. For Ren Zhong, this is a field worth investing in for the long term.

As the cornerstone of the core technology for the development of transistors, a point-contact germanium transistor has been brought to the world of Bright Sword by Ren Zhong and has completed preliminary industrial production.

This transistor has fast response speed and high accuracy, and can be used in a variety of digital and analog functional devices, including amplification, switching, voltage regulation, signal modulation and oscillation devices. It is now beginning to be used as a replacement for electronic products such as radio stations and receivers.

If we can realize transistor computers, we will have world-leading products in radar and decryption machines.

Now, key concepts and even implementations such as the first generation of transistor computer schematics, high-level computer languages, and the first generation operating systems have all been moved over by Ren Zhong.

The follow-up to the development of silicon transistors and germanium transistors is integrated circuits. As integrated circuits become smaller and smaller, and the circuit scale becomes larger and larger, chips will be formed!

This path has been passed down from generation to generation.

In this regard, Ren Zhong found complete evolutionary data in the main world and developed a direct path to the ultimate goal for the electronic research team of the Dawn Institute.

On the other hand, Ren Zhong did not forget how these things were made. He began to prepare for the production process equipment and develop the most basic technologies. For example, in the field of optics, he is now continuously developing the manufacturing technology of optical glass. He has also begun to study the generation and application technologies of laser, infrared light, far-infrared light, etc.

A lot of achievements have been made in distance measurement and telescopes.

However, these achievements are far from enough. Compared with Ren Zhong's desire to manufacture integrated circuits, there is still a huge gap.

However, even with very clear technical guidance, the research on these basic technologies still requires time to overcome current technical difficulties bit by bit in order to make gradual progress.

However, in addition to electronic technologies such as vacuum tubes and transistors, the development of radar and navigation technologies is also another branch of mature missile technology.

With the development of transistors, the basic technology of radar will take a leap forward. After all, the reliability of vacuum tubes is much worse than that of transistors, and their performance is far inferior.

The first-generation radar system snatched from the Rogue Eagle, under the technical guidance of Ren Zhong, was not copied completely according to the original plan, but was innovatively improved by using a large number of transistor components.

The SCR-268 radar copied from the Rogue Eagle and its accompanying Sperry M-4 fire control system is a rather outdated mechanical computer that receives the target's direction, speed and altitude data as input, can output the artillery or searchlight aiming azimuth and altitude data, and direct the anti-aircraft guns to fire and hit the target. It is relatively clumsy and slow to respond.

If transistor computers are used as a replacement, they will not only be faster but also much smaller in size. In the future, they can even be deployed on mobile radars instead of being fixed in one place like they are now.

Now the development of Dongfeng 1A has begun to put pressure on radar technology.

Second update, double the monthly tickets! Double the happiness, Yanzu guys, please help out! Go, go, go!
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(End of this chapter)