理工学研究科

自然・応用科学専攻Division of Fundamental and Applied Sciences

 

本専攻では自然科学のコア学問である数学・物理学・化学・生命科学を基盤とした最先端の教育研究を展開することで,多様な自然現象の本質を解明する力を身に付け,人類の知的資産としての学術の発展に寄与する研究者を育成します。また,それらのコア学問を高度に応用展開して,エネルギー・環境・医療問題などの現代社会が直面する諸課題を解決する力,さらに未来産業の創造につながる革新的技術を創出する力を身に付け,地域・国際社会の発展に貢献する研究者および高度専門技術者の育成を目指します。本専攻は化学分野,生命科学分野,数理・物理科学分野,材料科学分野の4つの教育研究分野から構成されています。化学分野,数理・物理科学分野,材料科学分野では理工学系教育プログラムを学修します。 生命科学分野では,理学系教育プログラムを学修します。

This division gives students the ability to cast light on the true nature of a variety of natural phenomena through the development of cutting-edge education and research based on core study of the fundamental sciences: math, physics, chemistry, and biological sciences. We also foster researchers who contribute to the development of academia, the intellectual asset of humanity. Our students develop and apply their core studies at a high level, gaining the ability to solve a range of problems faced by modern society, including energy, environmental and medical issues, and the ability to create innovative technologies that will lead to the creation of future industries. Our goal is to foster highly specialist engineers, and researchers who will contribute to the development of local and international society.The Division of Fundamental and Applied Sciences is made up of four education and research areas: the Chemistry Area, Biological Sciences Area, Mathematical Science and Physics Area, and Materials Science and Engineering Area. Students in the Chemistry, Mathematical Science and Physics, and Materials Science and Engineering Areas study a science and engineering education program. Students in the Biological Sciences Area study a science education program.

化学分野Chemistry Area

ものづくり産業のすべてにおいて化学が関与しています。化学分野では,有機・高分子化学,表面・エネルギー化学,物理化学・化学工学を専門とする教員の指導のもとで,ものづくりの基盤技術である化学における最先端の教育研究を遂行することで,新しい発見を行い,得られた知見に基づいて革新的な化学技術を創出する研究者および高度専門技術者の育成を行います。また,グローバル化に対応できる国際性豊かでリーダーシップ能力を有する研究者・技術者を養成するため,国際会議や学術論文を通して情報収集力,論理的思考力,研究展開力および語学力を習得するカリキュラムを編成しています。さらに,長期インターンシップ(選択科目)により学外実習を行い,最新の知識と経験を有する研究者・技術者を育成すます。

Chemistry is involved in all manufacturing industries. Under the guidance of staff specializing in organic and high polymer chemistry, surface and energy chemistry, and physical chemistry and chemical systems, the Chemistry Area makes new discoveries through cutting-edge education and research in chemistry, the basic technology of manufacturing, and fosters highly specialized engineers and researchers who will create innovative chemical technology based on the knowledge they have gained. We have drawn up a curriculum that allows students to acquire skills in gathering information from international conferences and academic papers, a capacity for logical thinking, the ability to develop research, and language skills, so we can train researchers and engineers with leadership ability and a deep sense of internationality that can support globalization. We cultivate researchers and engineers with the latest knowledge and experience, offering extramural training through long-term internships (elective subject).

生命科学分野Biological Sciences Area

生命科学分野は細胞工学,再生医療工学,生体機能,生命分子システム等の健康医療を中心としたライフサイエンス分野の最新の学術研究成果に基づく研究分野の高度な教育研究を行っています。生命科学分野は,生体機能,生命分子システム,細胞工学及び再生医療工学研究室から構成されています。生命科学の知見の応用展開までも見据えつつ,生命の基本原理探求に関わる遺伝子や蛋白質の発現調節などを対象とする分子レベルから,生体の恒常性維持など巨視レベルまでの研究指導を行っています。分子や遺伝子から個体レベルに至る網羅的な生物学の教育および研究を行っています。

In the Biological Sciences Area, we provide high level education and research in research fields based on the latest results from academic research in the life-sciences field, mainly in areas of health and medicine such as cellular engineering, regenerative medical engineering, biofunctions, and biomolecular systems. The Biological Sciences Area is made up of research labs for Biofunctions, Biomolecular Systems, Cellular Engineering, and Regenerative Medical Engineering. While we focus on developing and applying knowledge relating to biological sciences, we offer research guidance from the molecular level, such as handling genes connected to the search for the basic principles of life or the regulation of protein manifestation, to the macroscopic level, including maintaining homeostasis in the body. We carry out comprehensive biological research and education, from the genetic or molecular level to that of an individual living being.

数理・物理科学分野Mathematical Science and Physics Area

数理・物理科学分野では,数理科学,物性物理学,高エネルギー・宇宙物理学等の最新の学術研究成果に基づく理工学分野の高度な教育・研究をおこなっています。当該分野で開講する講義(基礎数理科学,応用数理科学,基礎物理科学,物性物理科学)や,数理・物理科学系演習,数理・物理科学系特別研究,および,研究共通科目である数理・情報科学の講義を履修することで,最先端の知識や幅広い視野に立った学識が修得できます。数学的対象や物理現象の根本原理や基本法則を解明する論理的思考力,自ら研究課題を立案するための情報収集能力,高度な数理科学,物理科学の深い知識と方法論,専門技術を柔軟に活用しながら,現実の高度で複雑な研究課題の解決に取り組み,研究遂行能力を身につけます。これにより,新しい知見を体系化し,数理工学や物理工学へ応用展開する能力を養います。

In the Mathematical Science and Physics Area, we carry out high-level research and education in the field of science and engineering based on the latest academic research results in mathematical science, condensed matter physics, and high energy and astrophysics. Our students can study the latest knowledge and broad perspectives by attending lectures held on their chosen field (basic mathematical science, applied mathematical science, basic physics, or condensed matter physics), carrying out mathematical science and physics practicum and special practical mathematical science and physics research, and attending lectures on mathematical and information science, a common research subject.Students make flexible use of their capacity for logical thinking to clarify the fundamental principles and basic rules of mathematical objects and physical phenomena, information gathering skills to design their own research tasks, and their depth of knowledge of high-level mathematical science and physics, methodology, and specialist techniques. With these skills, they strive to solve real-life, high-level and complex research tasks, gaining the ability to carry out research. In so doing, our students systemize new knowledge, and cultivate their ability to develop and apply mathematical science and physical engineering.

材料科学分野Materials Science and Engineering Area

材料科学分野では,金属生産工学や機能性材料理工学等の材料科学領域における最新の学術研究成果に基づき,新規機能性材料及び材料評価法の開発,各種機能性材料の製造プロセス及び加工プロセスに関する高度な教育研究を行います。また,材料科学の応用展開を論ずる金属材料理工学特論,材料科学の物理的基礎と応用を論ずる機能材料理工学特論,計測技術の物理的基礎と材料評価への応用を論ずる材料評価学特論等の理工学的基礎と金属生産工学などの工学的要素を融合した科目による教育により,材料科学分野における最先端の知識を修得することができます。修得した材料科学とその理工学的応用に関する知識や方法論を柔軟に活用して研究課題を解決し,得られた知見を体系化して新たな材料科学の創出と材料工学の発展に貢献できる高度な研究能力を持つ人材を育成します。

In the Materials Science and Engineering Area we offer high-level education and research relating to the development of new functional materials and material evaluation methods, and the production and processing processes of a variety of functional materials, based on the latest research results in this field, including those in metal production engineering, and functional materials science and engineering. Our students are able to gain cutting edge-knowledge in the field of materials science with an education in engineering basics, including advanced courses in metal materials science engineering, which discuss developing and applying materials science, functional materials science and engineering, which discuss the physical basis and application of materials science, and material evaluation, which discuss the application of materials science on the physical basis of measuring technology and material evaluation; we also offer subjects that unite elements of engineering, such as metal production engineering. We foster talented personnel who solve research issues by making flexible use of methodologies and the knowledge they have gained about materials science and its scientific and engineering applications, and who have high-level research abilities and can systemize the knowledge they have gained, creating a new materials science and contributing to the development of materials science.

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