This is a double first-class university, the engineering major is considered a strong major, and the foundation is not inferior to other key universities.
There have been many breakthroughs in various fields, and there are currently 12 national-level academicians in charge.
Its scientific research and academic strength cannot be underestimated.
The optical engineering of this university is also ranked among the top three in the country and belongs to the School of Precision Instruments and Optoelectronics Engineering, referred to as the School of Precision Instruments of Tianjin University.
However, the college has to take into account the three disciplines of instrumentation, optics and biomedicine at the same time, and its resources are relatively scattered.
Therefore, there may be uneven distribution of scientific research funds.
The college has two series, one is the Department of Optoelectronic Information Engineering, and the other is the Department of Optoelectronic Technology and Science. The former focuses on applications, while the latter focuses on research.
However, with the development of the times, some more distinctive optical majors have been established, such as ultrafast laser, terahertz, optical fiber sensing, communications, nonlinearity, integrated optoelectronics, etc. The professional directions are relatively comprehensive.
The optical major ranks among the best in China.
Even if you don't get into your favorite graduate school or stay in research after graduation, you won't starve to death.
Because optical professionals are relatively unpopular, but they belong to the technology industry, many optical manufacturing industries still need a lot of relevant professionals to participate.
For this reason, Jincheng University’s recruitment of optical majors has only increased every year.
Optical laboratory
Xu Hua is busy experimenting. He is a professor and is almost 40 years old. However, he also has scientific research tasks, mainly studying compound eye integrated lens technology.
In fact, this compound eye integrated lens technology is inspired by animals in nature.
The optical imaging equipment in human society today works on the same principle as our eyes, but we are still unable to create imaging equipment that exceeds the imaging quality of our human eyes.
It can be said that the optical imaging of the eyes is a gift from nature to mankind. It allows us to see clearly all things in nature and realize the rich and colorful world.
However, the eyes of other animals in nature are all kinds of strange, and their eyes can even broaden the field of vision better than humans.
For example, squids in the deep sea can see the polarization of light even though they cannot identify colors even in the sea thousands of meters deep. Therefore, they can see sharp contrasts in things in dim conditions, which is convenient for them to hunt.<
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There are also soaring goshawks, which can also identify prey at high altitudes several kilometers away and hunt quickly.
In addition, many insects also have a pair of compound eyes, which are composed of hundreds of tiny hexagonal lenses, so they can see in all directions at the same time, and can accurately capture prey even when moving at high speeds.<
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Humans also gained a lot of inspiration from these animals, derived bionics, and gave birth to many similar technologies.
Therefore, scientists also found inspiration in insects and wondered whether they could develop a technology that could replace so many lens technologies on mobile phones today, because many mobile phones now take multiple cameras and synthesize photos with higher accuracy.
Pixel, other observation equipment also use similar multi-camera technology.
It’s just that this multi-camera technology is far not as good as the compound eye lens technology, because the compound eye technology has the characteristics of a full field of view, has a 360-degree viewing angle in all directions, and presents a depth of sensory vision, which is unmatched by current multi-cameras.<
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The topic of Xu Hua's research is how to integrate the compound eyes of insects into a lens. If successful, it will have many applications in the future not only in the field of photography, but also in other fields.
But now we do encounter many problems, such as how to design the most critical lens, and how to design the lens to ensure coordination, which is quite troublesome.
"Failed again." Xu Hua sighed and couldn't help but frown when looking at the experimental results.
His current problem is that he doesn't know how to simplify the structure. He has tried many methods, but in the end it will affect the performance of the lens and lead to the failure of the experiment.
"Forget it, let's take a look at some papers first and see if we can find a solution from them."
Xu Hua had no choice but to put down his work, walk out of the laboratory, and prepare to go to the office computer to check some international journal papers.
At this moment, a student ran over.
"Teacher Xu, the people from Suiren Technology want to see you and say they have something to discuss."
"Suiren Technology?" Xu Hua asked doubtfully.
Why do you feel like you have heard of it somewhere?
"Professor Xu, he is the Suiren Technology who recently developed Daybreak Memory and contracted with several major cities."
Seeing his confused look, the student reminded him.
Xu Hua suddenly realized that he had heard and seen some news while doing experiments these days, including news about Suiren Technology, which was said to have broken the foreign high-end memory monopoly.
However, Suiren Technology seems to be engaged in the memory business and environmental sanitation business now, right? How did you find him?
Although he studies optics and seems to have some connection with semiconductors, there are differences.
"Well...then invite them to the office and see what they have to do?"
"Okay." Soon, the student followed the instructions and left.
Xu Hua also simply cleaned himself up for a while, took off his white coat, washed his hands and disinfected, then left the experimental building and came to the office.
When he arrived at the office, he saw an elite man wearing a black suit. His square face was very distinctive and impressive.
"Hello, Professor Xu, I am Wang Dalong from Suiren Technology."
Wang Dalong stood up and shook hands with Xu Hua.
"Hello Mr. Wang, please sit down. What do you want from me?"
After taking a seat, Xu Hua asked.
"Professor Xu, I invite you to join us on behalf of the company."
Wang Dalong is smiling.
When Xu Hua heard this, he immediately lost interest. "Mr. Wang, I'm sorry, I think I'll disappoint you if this is the case. I'm very satisfied with my current job, and I also have scientific research tasks now, so I don't want to go anywhere else for the time being."
Take office."
To be honest, in his opinion, the scientific research atmosphere of many domestic companies is not very strong. Most of them are businessmen. They may be interested in investing in a certain research team's project at the beginning, but corporate investment must pay attention to returns. If it is a long-term investment,
If there are no results, then this scientific research project is likely to be terminated.
Although this may only be a loss of funds for the enterprise, as long as it operates in the market and can be made up for in a few years, for the scientific research team, their only goal is to make technological breakthroughs, no matter how much energy and effort they invest,
Time doesn’t matter either.
If financial support is cut off midway, their long-term efforts may be in vain, which is absolutely unacceptable to them.
Xu Hua also felt that it was risky to work in a company, so he became a professor in school. Although the funding he applied for was a little small, it was at least more stable.
"Professor Xu, don't refuse in a hurry, take a look at this document first!"
Wang Dalong took out a document and handed it to Xu Hua.
Xu Hua took it suspiciously and opened it. Soon, his eyes were as big as bells.