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Ускорительный комплекс NICA — проект класса мегасайенс
Сидорин Анатолий Олегович,
Константинов Антон Валерьевич,
Костромин Сергей Александрович,
and
Сидоров Никита Евгеньевич
Сидорин Анатолий Олегович,
Константинов Антон Валерьевич,
Костромин Сергей Александрович,
and
Сидоров Никита Евгеньевич
Этот курс состоит из 8 модулей, подготовленных ведущими специалистами Объединенного института ядерных исследований (ОИЯИ) и НИЯУ МИФИ, которые расскажут Вам о научных мегапроектах, ускорителях частиц и новом ускорительном комплексе NICA (Nuclotron based Ion...
Read more
Этот курс состоит из 8 модулей, подготовленных ведущими специалистами Объединенного института ядерных исследований (ОИЯИ) и НИЯУ МИФИ, которые расскажут Вам о научных мегапроектах, ускорителях частиц и новом ускорительном комплексе NICA (Nuclotron based Ion...
Read more
Этот курс состоит из 8 модулей, подготовленных ведущими специалистами Объединенного института ядерных исследований (ОИЯИ) и НИЯУ МИФИ, которые расскажут Вам о научных мегапроектах, ускорителях частиц и новом ускорительном комплексе NICA (Nuclotron based Ion Collider fAcility), создающемся на базе Лаборатории физики высоких энергий им. Векслера и Балдина в Объединенном институте ядерных исследований (ЛФВЭ, ОИЯИ) в городе Дубна Московской области.
Этот мегапроект чрезвычайно важен для реализации прикладных и фундаментальных исследований в области ядерной физики. Прослушав курс, Вы узнаете о шагах, которые предпринимают ученые для воспроизведения и изучения в лаборатории особого состояния вещества — кварк-глюонной плазмы, в котором наша Вселенная пребывала в первые мгновения после Большого взрыва.
НИЯУ МИФИ принимает активное участие в проекте NICA и разрабатывает различные важные узлы этого ускорительного комплекса. Многие разработчики этого проекта — выпускники НИЯУ МИФИ. В Учебно-научном центре Объединенного института ядерных исследований есть базовая кафедра НИЯУ МИФИ, которая реализует магистерскую программу по подготовке специалистов для проекта NICA. Данный курс включен в эту учебную программу.
Register for this course and see more details by visiting:
OpenCourser.com/course/5jiyv2/uskoritel'nyi
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Know what's good ,
what to watch for , and
possible dealbreakers
Taught by instructors from key institutions in nuclear physics research and development including OIYAI and MEPhI
Designed for students interested in gaining knowledge and skills in nuclear physics and the study of quark-gluon plasma
Part of a broader educational program at MEPhI, offering opportunities for further specialization and career development in the field
Provides insights into cutting-edge research and the development of advanced experimental facilities in nuclear physics
Emphasizes the practical applications of nuclear physics research, such as the study of high-energy collisions in particle accelerators
Requires a strong foundation in physics, particularly in areas such as particle physics and quantum mechanics
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Career center
Learners who complete Ускорительный комплекс NICA — проект класса мегасайенс will develop knowledge and skills
that may be useful to these careers:
Nuclear Physicist
Nuclear Physicist
Nuclear Physicists explore the nature, structure, and behavior of atomic nuclei. The NICA Accelerator Complex is designed to delve into the realm of nuclear physics. By completing this course, you will gain a comprehensive understanding of the scientific goals and techniques utilized in nuclear physics research.
Accelerator Physicist
Accelerator Physicist
Accelerator Physicists are responsible for the development and operation of accelerators. The NICA Accelerator Complex involves cutting-edge advancements in this field. The course provides a solid foundation in the fundamental principles of accelerator science and its application in the NICA facility.
Particle Physicist
Particle Physicist
Particle Physicists study the fundamental building blocks of matter and their interactions. The NICA Accelerator Complex is dedicated to exploring particle physics. This course offers a unique opportunity to delve into the exciting field of particle physics and unravel the mysteries of the subatomic world.
Research Scientist
Research Scientist
Research Scientists conduct original research in various scientific disciplines. This course offers valuable insights into the scientific objectives and methods used in nuclear and particle physics research at facilities such as the NICA Accelerator Complex. It can enhance your ability to design and conduct impactful research projects.
Research Engineer
Research Engineer
Research Engineers play a vital role in the development and operation of scientific facilities like the NICA Accelerator Complex. This course provides an excellent foundation in the scientific principles underlying accelerator technology. It also highlights the practical aspects of research engineering in this field.
Data Scientist
Data Scientist
Data Scientists are in high demand to analyze and interpret the vast amounts of data generated by scientific experiments. The NICA Accelerator Complex will produce colossal datasets. This course provides a solid grounding in scientific data analysis techniques, which is essential for a successful career as a Data Scientist in the field of nuclear and particle physics.
Science Writer
Science Writer
Science Writers communicate complex scientific concepts and discoveries to the public. The NICA Accelerator Complex is a major scientific undertaking with far-reaching implications. This course will provide you with a deep understanding of the science behind NICA and the ability to translate it into engaging and accessible content for various audiences.
Technical Writer
Technical Writer
Technical Writers create technical documentation and manuals. The NICA Accelerator Complex requires extensive documentation for operation and maintenance. This course provides a solid foundation in the principles and practices of technical writing, enabling you to produce clear and effective documentation for the NICA facility.
Project Manager
Project Manager
Project Managers lead and coordinate complex scientific projects like the NICA Accelerator Complex. This course provides an overview of the project management principles and practices involved in large-scale scientific endeavors. It can equip you with the skills to effectively manage projects and ensure their successful completion.
Science Educator
Science Educator
Science Educators inspire and educate students about scientific concepts and discoveries. The NICA Accelerator Complex is a valuable resource for science education. This course will provide you with the knowledge and tools to effectively teach nuclear and particle physics concepts and engage students in scientific inquiry.
Software Engineer
Software Engineer
Software Engineers develop and maintain software systems. The NICA Accelerator Complex relies heavily on sophisticated software. This course will provide you with the foundational knowledge in software development principles and practices commonly used in scientific research environments.
Mechanical Engineer
Mechanical Engineer
Mechanical Engineers design, develop, and maintain mechanical systems. The NICA Accelerator Complex requires specialized mechanical systems. While this course focuses on nuclear and particle physics, it may provide some foundational knowledge in mechanical engineering principles relevant to the field.
Electrical Engineer
Electrical Engineer
Electrical Engineers design, develop, and maintain electrical systems. The NICA Accelerator Complex involves intricate electrical systems. This course may provide valuable insights into the electrical engineering principles and practices employed in such facilities.
Civil Engineer
Civil Engineer
Civil Engineers design, construct, and maintain infrastructure. The NICA Accelerator Complex involves the construction and maintenance of facilities. This course may provide a general overview of civil engineering principles, which could be useful in understanding the civil engineering aspects of such projects.
Health Physicist
Health Physicist
Health Physicists ensure the safe use of radiation and radioactive materials. The NICA Accelerator Complex utilizes radiation and radioactive materials. This course may provide a basic understanding of radiation safety principles, which could be beneficial for a Health Physicist working in this field.
For more career information including salaries, visit:
OpenCourser.com/course/5jiyv2/uskoritel'nyi
Reading list
We've selected seven books
that we think will supplement your
learning. Use these to
develop background knowledge, enrich your coursework, and gain a
deeper understanding of the topics covered in
Ускорительный комплекс NICA — проект класса мегасайенс.
This textbook is an excellent introduction to nuclear physics. It covers the basic concepts of nuclear structure, nuclear reactions, and nuclear decay. It is written in a clear and concise style and is well-suited for students with a background in basic physics.
Save
This textbook provides a comprehensive overview of nuclear physics. It covers a wide range of topics, including nuclear structure, nuclear reactions, and nuclear applications. It is written in a clear and concise style and is well-suited for students with a background in basic physics.
This textbook provides a comprehensive overview of nuclear and particle physics. It covers a wide range of topics, including nuclear structure, nuclear reactions, particle physics, and cosmology.
This textbook provides a comprehensive overview of high energy physics. It covers a wide range of topics, including particle physics, nuclear physics, and cosmology.
This textbook provides a comprehensive overview of particle physics. It covers a wide range of topics, including the Standard Model, quantum field theory, and cosmology.
Save
This textbook provides a comprehensive overview of the physics of particle accelerators. It covers the basic principles of accelerator design and operation, as well as the various types of accelerators that are used in research and industry.
Provides a non-technical overview of quantum field theory (QFT), the theory of the fundamental forces of nature. It explains the basic concepts of QFT and its applications to particle physics.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/5jiyv2/uskoritel'nyi
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Time
36 hours
Via
Coursera
Institutions
National Research Nuclear University MEPhI
Joint Institute for Nuclear Research
Instructors
Сидорин Анатолий Олегович
Константинов Антон Валерьевич
Костромин Сергей Александрович
Сидоров Никита Евгеньевич
Good to know
Taught by instructors from key institutions in nuclear physics research and development including OIYAI and MEPhI
Designed for students interested in gaining knowledge and skills in nuclear physics and the study of quark-gluon plasma
Part of a broader educational program at MEPhI, offering opportunities for further specialization and career development in the field
Provides insights into cutting-edge research and the development of advanced experimental facilities in nuclear physics
Emphasizes the practical applications of nuclear physics research, such as the study of high-energy collisions in particle accelerators
Requires a strong foundation in physics, particularly in areas such as particle physics and quantum mechanics
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