2021年物理学留学申请书
关于语言能力的问题,有的家长和学生还有一个误区,他们认为到了国外,语言环境比较好,自然容易提高。这个想法是错误的,违背了外语学习的规律。这里给大家分享一些2021年物理学留学申请书,欢迎阅读!
2021年物理学留学申请书
Dear _,
Two valuable treasures I am favored with are strong perseverance and diligence. They play a significant role in the realization of my goal----to be the most excellent. When I finished four years’ study in the University of Science and Technology of China (USTC), I have been awarded the highest honor in the university ----“Guo Moruo Scholarship”,which is only granted to the most excellent students and the most potential researchers. Moreover, my cooperators and I have submitted 5 Papers about my research work to international journals, such as Phys. Rev. B, etc., including one first-author paper.
Academic Records
My interest in physics was strongly inspired by a face to face communication with the Nobel Prize winner, Mr. Zhengdao Li, when I was in the special training for the Olympic Competition in my middle school years. Driven by the strong interest, I chose physics as my major in USTC. I have dedicated myself to the academic courses and built up a solid foundation in Mathematics, Computer Science, English and Physics. I rank top 3 among 137 students in my class. My overallGPA is 3.80/4.0 and the Major GPA (including subjects of Physics, Math, Computer Science) is 4.0/4.0. Also I got full marks in Variable Calculus and Theoretical Mechanics. My hard work in both academic knowledge and public affairs brought me many other honors besides the “Guo Moruo Scholarship”, such as “Outstanding Student Scholarship (Grade 1)”, “Three-excellent Student in Anhui Province”,“Guanghua Education Scholarship”, etc.
I have paid much attention to the formation of many good habits, besides focusing on the enhancement of academic knowledge. I would never let a seemly small problem slip by easily, even with the sacrifice of days’ time spent in searching piles of books or discussing with others. Some difficult questions which are likely to be given up by others are usually put in my mind for further thinking.
Research Experience
My strong interest in physics and material sciences motivated me to put my theoretical knowledge into practice, when I was in my second year’s study. I joined the Prof. Chen Xianhui’s research group at that time. And I got my initial lab training from then on. I had managed to grasp many experimental skills and learn how to operate the instruments in the lab independently just after half a year or so. The instruments includes 15 T Ultra-high Magnetic Field System, AC Assistance Bridge, MORRIS high oxygen pressure system, M.Baum Glove-Box System and so on. Meanwhile, I got familiar with a lot of useful software such as PCPDFWIN, CELL, PEAKS, FULLPROOF, GSAS, using them to analyze crystal structure from X-Ray diffraction pattern. Moreover, I got in touch with many updated novel ideas from the active weekly seminar program in our group and strongly extended my notions of physics by a series of concepts, charge-ordering, double exchange, pseudogap etc., which initiated my enthusiasm to investigate the profound mystery of nature.
I was devoted to the research of Colossal Magnetoresistive (CMR) materials not long before. I conducted a thorough study on the properties of La1-xCaxMnO3 (x = 0.33, 0.5) thin films which were deposited on different substrates with the cooperation of a graduate student in our group. We have observed some interesting behaviors of the films, including magnetization, transport properties and Raman spectra, etc. About this, I had submitted two papers to Phys. Rev. B as a co-author.
Another work I also engaged in was to synthesize series of samples of polycrystal perovskite oxides (La1-xLnx)0.5Sr0.5CoO3 (Ln = Pr, Nd), and study their transport and magnetic properties. By the need of the experiments, I have spent much time in reading numerous relevant updated papers from both international web sites, such as _x.lanl.gov, and international journals, e.g. Phys. Rev. Lett., Phys. Rev. B etc. I got a clear picture of the mechanism of the Cobalt Oxides, such as hopping conduction of polarons, Co3+-O-Co4+ double exchange etc. Then I used some of these models to explain some interesting phenomena observed on these samples. And one first-author paper was submitted to J. Phys.: Condens. Matter.
With extensive interests and enormous hard work, I have carried out my current work in the following three directions: 1. continuing the research work on CMR materials; 2. cooperating with a graduate student in our group aiming at growing NaxCoO2 single crystal, and some high-quality samples have been synthesized; 3. investigating the properties of new materials Sr2CoO2Cl2, BaNi2V2O8 etc.
Through my two years’ work in the lab, I realized the importance of active thinking, perseverance and cooperation. I had once tried to synthesize Pb-doped LaMnO3 through conventional method and failed for a great number of times. But I kept on trying new ways and finally got success through a chemical method Sol-Gel. I felt I were the happiest one in the world then. Besides, by cooperating with some groups in universities abroad, e.g. Boston College, UC-Berkeley, Boulder etc., our group has accomplished many works which we could hardly handle independently.
Research interests and Future plans
I am fortunate to choose Condensed Matter Physics and Materials Physics, especially the Condensed Matter Experimental Physics. I am also deeply interested in other fields: nanoscience, soft matter, mesoscopic physics, low dimensional system, space, biophysics etc.
I plan to complete my Ph.D. degree in 4-5 years, after that I will continue my research and devote myself to natural sciences.
Why I choose University of Texas at Austin
The faculty in University of Texas at Austin is an internationally recognized group of scientists, including world famous leaders in many important areas at the forefront of physical research. The teaching and research facilities in your university are among the best in USA. This provides students with opportunities to work in first-class facilities and research centers at Austin. Moreover, your university is committed to fostering an inclusive environment. And I am also strongly attracted by the cooperative atmosphere in your department.
With excellent academic knowledge, strong interest in natural sciences as well as outstanding research experience, I am sure to do some better work in your esteemed university and to realize my goals.
Yours sincerely,
xuexila
白俄罗斯留学申请流程
1、报名
2、取得大学入学通知书 报名后约 5-7 周内可收到大学入学通知书。
3、办理公证书外交部认证、体检身体
4、学生办理出国签证 签证材料需要:学生身份证复印件、护照原件及复印件、邀请函原件、体检证明原件、照片 2 张白底两寸。白俄罗斯留学生签证一般是 7 个工作日出签证。
5、购买出国飞机票,准备登机 中国飞往明斯克的飞机有直达、有转机,但买直达机票。出国前的准备工作,准备必须携带物品。登机前老师会对学生进行行前指导、培训出国注意事项。约定集合时间,准备登机出国。
6、通知境外服务人员准备接机 学生抵达学校后,安排学生与家长联系
7、帮助学生办理各种入学手续 为学生办理入学、住宿相关手续;帮助学生到当地办理境外落地签证;带领学生到当地大学生医院体检身体(一年一次);帮助学生购买医疗保险(一年一次);帮助学生到银行开户、办理手机卡等;带领学生熟悉校园及周围环境;通知学生准备上课。
出国留学乌克兰热门院校一览
1、基辅国立大学
基辅国立大学,是乌克兰的最的综合性大学。成立于1834年,在欧洲及世界上的教育机构中占据了重要地位,享有良好的声誉。现有在校学生20,000余人,教职员工3000余名,其中包括17位院士、321位教授和1000多位副博士。
专业推荐:国际关系、语言学、经济、新闻、法律、心理学等
2、哈尔科夫国立大学
乌克兰哈尔科夫国立大学是东欧最古老的大学之一,这个乌克兰的科学和教育中心建立于 1805 年1月29日,它是当时小俄罗斯和当今乌克兰境内最早建立的大学。
专业推荐:物理、医学、金融、外语等
3、乌克兰国立航空大学
全球民航三大之一,拥有自己的机场。
1934年建校,毕业文凭为世界上所有参与里斯本航空公约的国家所承认。欧洲的欧洲航空安全专家地区培训中心。曾派4位专家援建北京航空航天大学。
专业推荐:理学、工学、经济学、管理学、建筑学、教育学、法学等
4、基辅理工大学
世界上最古老、规模的工科大学之一。
1898年建校,全称乌克兰国立技术大学,化学家门捷列夫曾担任基辅理工学院国家考试委员会主任。人类第一个载人(加加林)航天器的总设计师出自本校;第一架直升飞机的设计师也出自本校。
专业推荐:法学、理学、文学等
5、文尼察国立医药大学
文尼察国立医科大学创立于1921年,是乌克兰最古老的医科大学之一,培养了无数的世界的医学家,大学目前是乌克兰的医科大学,欧洲三大医学院之一。其部分研究所一直在欧洲医学界和世界医学界占有一定的科研地位。
专业推荐:制药学、临床学、药剂师、运动医学等
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