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I went to graduate school this year. The cut-off score is 50 for politics; English 55; The professional class is 80The total score is 325
There is no comparison of the cut-off scores from year to year. Generally, it is about 30 points higher than the national line, and some of the single subject lines are very high, and this year's English is like this.
In the past two years, about 58 people have been enrolled, and 22 have been secured this year. I didn't know until I went to the retest. Also, this year's optics class is relatively easy to admit, and there is something abnormal: last year's mechanical students were easy to pass, and this year's application is too many people (mechanical) It is difficult.
I can't say which major is good, because the laboratory doesn't let us in, and we can't know other information.
Among these optomechanical research institutes, Changchun is the oldest, Shanghai is the richest, and the others are average. From the perspective of our school, the light is the hottest, the long light is the second, and the others are occasionally reported. I can't say which is better.
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University of Science and Technology of China 2008 Master's Degree Entrance Examination Re-examination Basic Score Category: Foreign Language Score, Political Score, Business Course 1, Business Course 2, Total Score: Philosophy: 01 55 55 90 90 330 Economics: 02 60 60 96 96 350 Law: 03 55 55 90 90 330 Literature: 05 55 55 90 90 330: History: 06 55 55 165 (Comprehensive) 320 Science: 07 50 50 80 85 315: Engineering: 08 50 50 85 85 315 Management 12 55 55 90 90 330 MBA in Business Administration 55 105 (comprehensive score) The 175 strong army plan will be determined separately by relevant departments and disciplines.
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Founded in 1970, the Institute of Optoelectronic Technology of the Chinese Academy of Sciences (hereinafter referred to as the Institute of Optoelectronics) is the largest research institute of the Chinese Academy of Sciences in southwest China. In 1999, it entered the pilot project of knowledge innovation of the Academy of Sciences, and in 2006, it entered the third phase of innovation, and was evaluated and identified as a Class A (excellent) research institute of the Academy of Sciences.
Since the establishment of the Institute of Optoelectronic Technology, Chinese Academy of Sciences[1], the Institute of Optoelectronics has made a number of major achievements in the fields of adaptive optics, beam control, and applied optics, and has successively obtained more than 500 scientific and technological achievements, including the National Science and Technology Progress Award, applied for more than 380 patents, authorized more than 180 patents, and published more than 3,100 articles. At the same time, it has carried out extensive academic exchanges and cooperation at home and abroad, and has hosted many international academic exchange activities such as international advanced optical manufacturing and testing conferences.
Driven by national needs and facing the forefront of the development of the world's optoelectronic science and technology, the Institute focuses on basic and forward-looking high-tech research and system integration innovation research on the application of optoelectronic engineering. It has established the National Key Laboratory of Beam Control of the 863 Program, the Key Laboratory of Adaptive Optics of the 863 Program and the only State Key Laboratory of Microfabrication Optical Technology in China. The main research areas include:
Beam control, adaptive optics, astronomical target photoelectric observation and identification, photoelectric precision tracking and measurement, micro-optics and micro-electronic optics, advanced optical manufacturing, biomedical optics, etc., undertake the research of major key projects of the state, natural sciences, ministries and commissions and the development projects commissioned by enterprises, and the research level is leading in China or advanced in the world.
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The Institute of Optoelectronic Science and Technology of the Chinese Academy of Sciences is a state key laboratory with optoelectronic technology as its main research direction. Here are some of the possible advantages and disadvantages:
Pros:1The institute is a national key dust cleaning laboratory, with a high-level research team and advanced scientific research facilities, which provides good conditions and support for scientific research.
2.The institute is in a leading position in the field of optoelectronics, and has the opportunity to participate in some scientific research projects of great significance, which is conducive to the development of personal scientific research.
3.The institute is located in Nanguan District, Changchun City, with beautiful surrounding environment, convenient transportation and convenient life.
Cons: 1Due to the heavy research tasks of the institute, the work intensity may be high, and it is necessary to have strong working ability and adaptability.
2.The research work of the institute requires a certain amount of time and experience, and it may take a certain period of adaptation for newcomers.
3.The salary level of the institute may be lower than that of some private enterprises or foreign companies, but due to the important scientific research tasks of the institute, some researchers may pay more attention to scientific research results and development space.
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The Institute of Optoelectronics of the Chinese Academy of Sciences is located in Chengdu, Sichuan Province, Shuangliu West Airport Optical Circuit No. 1.
The Institute of Optoelectronics of the Chinese Academy of Sciences has:
1. Changchun Institute of Optics and Mechanics: It is the grandfather of several institutes of optics and mechanics. Located in Changchun, China, it has a strong foundation and a very clean city.
2. Institute of Optoelectronic Technology, Chinese Academy of Sciences: The Institute of Optoelectronics was founded in 1970. Since its establishment, the Institute of Optoelectronics has made a number of major achievements in the fields of adaptive optics, beam control, and micro-nano optics, and has successively obtained more than 500 scientific and technological achievements, including the National Science and Technology Progress Award, applied for more than 1,700 patents, authorized more than 1,000 patents, and published more than 5,700 articles.
3. Anhui Institute of Optics and Precision Mechanics, Chinese Academy of Sciences: Anhui Institute of Optics and Mechanics, founded in December 1970, is located on the scenic Science Island on the shore of Shushan Lake in the western suburbs of Hefei City, Anhui Province. In May 2001, Anhui Institute of Optics and Mechanics entered the pilot ranks of the Knowledge Innovation Project of the Chinese Academy of Sciences and became a part of the Hefei Institute of Physical Sciences of the Chinese Academy of Sciences.
4. Xi'an Institute of Optics and Mechanics, located in the northwest city of Xi'an, is located on the western avenue of Chang'an Industrial Park. In particular, the concept of hard science and technology proposed by Dr. Mi Lei has opened up the situation for Xi'an Institute of Optics and Mechanics. Industrial development has become an important development direction of Xi'an Institute of Optics and Machinery.
5. Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences: Shanghai Institute of Optics and Mechanics, founded in May 1964, is the earliest and largest professional research institute of laser science and technology in China.
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Summary. The ranking of Class A institutes of the Chinese Academy of Sciences does not represent the academic ranking, and the rankings of universities are full of flowers, and the rankings are different according to different standards. Each institute of the Chinese Academy of Sciences is first-class in its field of study, which is relatively meaningless.
Due to the strong support of the state and local governments in terms of platforms, policies and funds, newly established research institutes are often able to develop in a relatively short period of time, such as Shenzhen Advanced Institute, Chongqing Green Intelligence, Xiamen Urban Environment, and Qingdao Bioenergy, which have been established for less than ten years, attracting a large number of returnees and young researchers.
Is the Institute of Optoelectronics of the Chinese Academy of Sciences an A+ research institute?
Is the Chengdu Institute of Optoelectronics, Chinese Academy of Sciences an A+ Institute?
Yes, the Institute of Optics and Electronics (Chinese Academy of Sciences), founded in 1970, is the largest research institute of the Chinese Academy of Sciences in southwest China. In 1999, it entered the pilot project of knowledge innovation of the Chinese Academy of Sciences, and in 2006, it entered the third phase of innovation, and was evaluated and identified as the Youyu Class A (Youshen Zhiduanxiu) Institute of the Academy of Sciences.
It's said to be class A, it's not A+, is it?
In 2006, there was no A addition.
Is it Class A or A+ now?
I would like you to help me confirm it accurately, thank you, teacher!
There is such a thing as a plus in the discipline.
There is no such thing as A+ at the Institute.
Your question is a bit off-right.
There are only Class A, Class B and other institutes.
I want to inquire about whether the Chengdu Institute of Optoelectronics, Chinese Academy of Sciences, is A or A+?
The institute does not have an A+ grade.
Your question is incorrect.
You're talking about disciplines.
You confuse the institute with the discipline.
Teacher, my son is exempted from the Chengdu Institute of Optoelectronics, Chinese Academy of Sciences, I want to confirm whether it is A or A+?
A The ranking of Class A institutes of the Chinese Academy of Sciences does not represent the academic ranking, and the rankings of universities are full of flowers, and the rankings are different according to different criteria. The discipline to which each research institute of the Chinese Academy of Sciences belongs is first-class, which is relatively meaningless. Due to the strong support of the state and local governments in terms of platforms, policies and funds, newly established research institutes are often able to develop in a relatively short period of time, such as Shenzhen Xiannai Liquid Institute, Chongqing Green Intelligence, Xiamen Urban Environment, and Qingdao Xiangling Bioenergy, which have been established for less than ten years, attracting a large number of returnees and young researchers.
Any questions, dear?
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Summary. Dear, I am glad to answer for you, the Institute of Optoelectronic Technology of the Chinese Academy of Sciences is a state-owned enterprise of the Institute of Optoelectronic Technology of the Chinese Academy of Sciences (hereinafter referred to as the Institute of Optoelectronics) was founded in 1970. Since its establishment, focusing on the major needs of the country, focusing on the world's scientific and technological frontiers, it has carried out innovative research on basic, forward-looking, and subversive research in the field of optoelectronics, and has gradually become an indispensable optoelectronic scientific and technological force in the national scientific and technological system.
More than 1,700 patents have been applied for, and more than 1,000 patents have been authorized.
Dear, I am glad to answer for you, the Institute of Optoelectronic Technology of the Chinese Academy of Sciences is a state-owned enterprise, the Institute of Optoelectronic Technology of the Chinese Academy of Sciences (hereinafter referred to as the Institute of Optoelectronics) was founded in 1970. Since its establishment, focusing on the major needs of the country, focusing on the world's scientific and technological frontiers, it has carried out innovative research on the basic, forward-looking, and subversive aspects of the optoelectronic field, and has gradually become an indispensable scientific and technological force in the national science and technology system. More than 1,700 patents have been applied for, and more than 1,000 patents have been authorized.
The Institute of Optoelectronics has established 10 innovative research laboratories, including the State Key Laboratory of Microfabrication Optical Technology, the Key Laboratory of Beam Control of the Chinese Academy of Sciences, the Key Laboratory of Adaptive Optics of the Chinese Academy of Sciences, the Key Laboratory of Space Optoelectronic Precision Measurement Technology of the Chinese Academy of Sciences, and the General Laboratory of Optoelectronic Engineering, as well as the Chengdu Geometric and Optoelectronic Precision Mechanical Testing Laboratory of the Chinese Academy of Sciences. There are also five research and development centers, including precision machinery manufacturing, advanced optical development, lightweight mirror blank development, optical engineering overall integration, and quality inspection, as well as technical support centers such as science and technology information centers. At present, it undertakes the research of national key research and development plans, natural sciences, major key projects of ministries and commissions and development projects commissioned by enterprises, and the research level is leading in China or advanced in the world. At present, the Institute of Optoelectronics has 1 postdoctoral mobile station (optical engineering), 3 doctoral discipline training points (optical engineering, test and measurement technology and instruments, signal and information processing), and 4 academic master's training points (optical engineering, precision instruments and machinery, test and measurement technology and instruments, signal and information processing). At the same time, there is also a full-time professional master's degree training program in electronic information (including four research directions: instrument engineering, electronic and communication engineering, control engineering and computer technology).
At present, there are more than 200 on-the-job tutors and more than 400 master's and doctoral students. In the future, the Institute of Optoelectronic Technology of the Chinese Academy of Sciences will adhere to innovative development, high-quality development and coordinated development, continue to produce innovative achievements, innovative talents and innovative ideas, and be the vanguard of scientific and technological innovation in the new era.
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Summary. Pro-<>
We'll be happy to answer your questions. The graduate students of the Institute of Optoelectronics of the Chinese Academy of Sciences are generally very good, and their learning level and research ability are very strong, and they are able to achieve great academic achievements. The graduate students here have higher academic qualifications, and there are many excellent scholars who carry out scientific research here, making it a research institution with a high academic level.
In addition, the Institute of Optoelectronics of the Chinese Academy of Sciences has huge research resources, and there are many graduate students who can participate in scientific research work, and can accumulate rich scientific research experience here. <>
How about the graduate students of the Institute of Optoelectronics, Chinese Academy of Sciences.
Dear <> will be happy to answer for you. The graduate students of the Institute of Optoelectronics of the Chinese Academy of Sciences generally come to the model to say that they are very good, their learning level and research ability are very strong, and they can make great achievements in academics. The graduate students here have higher academic qualifications, and there are many excellent scholars who carry out scientific research here, and it is a research institution with a high academic level.
In addition, the Institute of Optoelectronics of the Chinese Academy of Sciences has huge research resources, and there are many graduate students who can participate in scientific research work, and they can accumulate rich scientific research experience here. <>
How about the rare earth national project of Beijing Nonferrous Metals Research Institute, and which one is better for graduate school.
Dear <> will be happy to answer for you. Answer: Beijing Nonferrous Metals Research Institute Rare Earth National Engineering is an excellent research institution in the town, with the strong support of the first, it has not only made great progress in the operation technology and research and development side, but also enjoys a good reputation in the industry.
Relatively speaking, which of the two is better.
Kiss, both of these are good.
Kiss, choose whichever you want.
Which is better for graduate students from the two research institutes to sign for employment after graduation?
What's the difference.
Dear <> will be happy to answer for you. Answer: The Institute of Optoelectronics of the Chinese Academy of Sciences and the Beijing Research Institute of Nonferrous Metals have their own characteristics
The graduates of the Institute of Optoelectronics of the Chinese Academy of Sciences have a good employment visa, because the Chinese Academy of Sciences has a high reputation at home and abroad, and graduates can be favored by many enterprises and research institutions, recognized by enterprises and research institutions, and can get higher salaries and job opportunities. The employment of graduates of Beijing Nonferrous Metals Research Institute is also good, because Beijing Nonferrous Metals Research Institute is the earliest institute engaged in non-ferrous metal research in China, with rich scientific research resources, and the development of non-ferrous metals industry is also very rapid. In general, the employment prospects of graduates of the two institutes are relatively impressive.
Dear, you are so good, you can choose either of these two options.
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