Akintsov Nikolai Sergeevich

Akintsov Nikolai Sergeevich

1. Major

Radiophysics and Electronics

2. Research Direction

Radiophysics, Plasma Physics, Classical and Quantum Theory of Motion and Radiation of Relativistic Charged Particles, Charged Particle Traps, Quantum Optics

3. Email:akintsov@163.com / akintsov777@mail.ru

4. Academic Background

2018.04, Russia's highest qualification certification committee (ВАК) awarded a doctorate degree

2017.11, Southern Federal University (Rostov-on-Don) passed the defense of the doctoral dissertation

2012.11—2015.10, PhD student (full-time), Radiophysics, Kuban State University

2007.9—2012.6, Master, Radiophysics and Electronics, Kuban State University

5. Work Experience

2021.01–Till date, Postdoctoral researcher, Intelligent Information Technology Research Center, Nantong University

2020.08—2021.08 Lecturer, the College of Information Science and Engineering, Ocean University of China, Qingdao

2015.09—2018.02 Assistant Professor, Department of Radiophysics and Nanotechnology, Kuban State University,

2014.09—2015.06, Lecturer, Department of Radiophysics and Nanotechnology, Kuban State University, Krasnodar

2013.09—2014.06, Lecturer, Krasnodar Technical College, Krasnodar

6. Published Articles

1. Spectral Characteristics of Polarization-Modulated Electromagnetic Wave in Vacuum // Fizicheskoe Obrazovanie v VUZah (Physics in Higher Education). 2016. Vol. 22. № S1. pp. 35-37.

2. Spectral and angular radiation characteristics of a charged particle in the plane monochromatic electromagnetic wave // St. Petersburg State Polytechnical University Journal. Physics and Mathematics. 2015. No. 4 (230). pp. 150-163.

3. The motion of a charged particle in the field of a frequency-modulated electromagnetic wave and in the constant magnetic field // St. Petersburg State Polytechnical University Journal. Physics and Mathematics. 2015. No. 4. pp. 164-174.

4. Motion of a Charged Particle in the Field of a Circularly Polarized Amplitude-Modulated Electromagnetic Wave in the Presence of a Constant Magnetic Field // Russian Physics Journal. 2015. Vol. 58. No 4. pp. 508-516. (SCI, SCOPUS, ISI)

5. The motion of a charged particle in the field by a frequency-modulated electromagnetic wave // Nanosystems: physics, chemistry, mathematics. 2015. Vol.6. No. 5. pp. 661-671. (SCI, ISI)