New Hui Photoelectric Technology Departnt.
As the CEO of the company, Lou Sheng had always been at the forefront of research and developnt. His work was very busy, but micro optical tube embedding technology was just too important. It was so important that it directly related to the company’s developnt.
The improvent of micro optical tube embedding technology marked the entry of optical path embedding technology into the nano era.
In the manufacturing industry now, the manufacturing of electronic chips had already entered the nano era, primarily due to market demands. Where there was demand, there was a market, and where there was a market, investnt in research and developnt followed.
The developnt of micro optical tube technology had grown alongside anti-gravity technology. Everyone who understood anti-gravity technology and space link technology knew how crucial it was to minimize the size of optical pathways.
The developnt speed of New Hui Photoelectric was very fast, and it had beco one of the top international optoelectronics enterprises.
But it was just one of them.
Now, Lou Sheng was full of fighting spirit. He hoped to lead the company to beco the global number one, much like the country’s latest technology. He reinvested a lot of profits into research and developnt, which led to the current technological improvents.
When he was in the technology departnt, he was concerned about manufacturing problems and kept asking the technical team, "What kind of improvents need to be made to the lathes if we want to apply this technology to manufacturing?"
"How long might it take for us to truly apply it?"
"What is the total cost of the project up until now? Provide a detailed list."
"Many companies, including those involved with the latest technology, will certainly be interested in such advancents!"
As Lou Sheng was talking, the person who was truly interested arrived.
Zhao Yi.
Zhao Yi’s work schedule was very tight. He ca in a hurry and only made a phone call after arriving.
Lou Sheng, knowing that Zhao Yi had co, quickly arranged a series of hospitality asures and even went to the entrance of the technology departnt building to welco him.
This grand treatnt was not just because of Zhao Yi’s reputation but also because he was New Hui Photoelectric’s largest individual shareholder. He controlled ten percent of the company’s shares, several tis more than Lou Sheng, the company’s head.
After arriving at the technology departnt, Zhao Yi exchanged a few pleasantries with Lou Sheng and then got straight to the point, asking about the micro optical tube embedding technology.
Manager Wang Ronghua of the technology departnt began a serious introduction, "Academician Zhao, we have achieved embedding of the optical tubes by combining nanotechnology with optical routing technology."
"The embedded optical tubes we produce consist of three layers. The outer layer is made of a special fiber plastic structure, the middle layer is a plastic material containing certain tallic elents, but it does not conduct electricity or absorb heat."
"The innermost layer is embedded with a smooth inner mbrane."
"The technology for this inner mbrane has the highest content. It needs to ensure a smooth optical path and also maintain accuracy within a certain error range."
"The inner diater of each of our optical tubes has an error within three nanoters."
Wang Ronghua discussed many technical standard issues.
Zhao Yi listened and nodded repeatedly, "This is a significant improvent. Micro optical tube embedding technology aims to asure up to chip technology."
"However, the requirents for micro optical tube embedding are much more complex than those for chips. It’s not possible to achieve a few nanoters, nor is it necessary to do so."
"In the direction of space link technology, there is still high demand for nanoter-level optical pathways. For other directions, the focus is more on developing better materials, such as ensuring the tubes absorb no heat and pursuing more smoothness and smaller errors in the inner diater."
Zhao Yi discussed the latest technology’s requirents for optical pathways.
For instance, with anti-gravity technology, smaller is not always better. This is because if the light beam generator is too small, it can’t keep up with the power needed. A nanoter-level high-power optical path diater is equivalent to emitting a laser, and the material of the tube simply can’t contain it.
However, the demands of space link technology are not as high, which allows for the continuous reduction of the optical tube diater, enabling linking devices to be made smaller and applied in more scenarios.
When Zhao Yi arrived at the technology departnt, he asked a question, "If we double the inner diater of the optical tubes, with your current technology, by how much would the overall diater increase?"
"Calculate it," Lou Sheng instructed Manager Wang Ronghua.
The result ca out quickly.
"Doubling the inner diater would expand the overall size by about one-third!"
Zhao Yi thought carefully and worked out the requirents for anti-gravity technology.
The original anti-gravity system required a diater of about ten ters. The interior of the anti-gravity system was full of complex optical pathways. Relying on current technology, however, they could significantly reduce the optical pathways, thus greatly reducing the diater.
"If we improve the large pathways and perform a detailed design, about two ters should be enough, right?"
This result was surprisingly good.
Zhao Yi had always wanted to design a civilian aircraft. He only participated in the design of turbofan engines and fighter jets, with the F-40 being his most perfected design product.
After working on the developnt of anti-gravity technology, aircraft design seed unrelated to him, mainly because anti-gravity technology was so massive that it was difficult to apply to civilian aviation.
When anti-gravity technology first appeared, it had a significant impact on the civil aviation industry. The stock prices of many companies in the civil aviation sector suffered greatly, mainly because the developnt of anti-gravity technology seed to be a direct challenge to civil aviation.
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