Dmitriev M.S.

Dmitriev Maksim S.

Degree: Candidate of Sciences (PhD) in Technology

Associate Professor

Office of Academic Programs: Division of Laser and Plasma Technologies (412) / Institute of Laser and Plasma Technologies
Works at MEPhI since 2000
Work Experience: 17 years

Education

2002 — National Research Nuclear University MEPhI

Courses

1. Academic Practice (Primary Professional Skills)
2. Academic (Primary Professional Skills) Practice: Research
3. Academic (Research) Practice
4. Academic (Research) Practice:
5. Electromagnetic Compatibility (Emc)
6. Electronics (Electronic Devices)
7. General Electrical Engineering and Electronics: Electronic Devices
8. High-power Pulsed Equipment
9. High Voltage Equipment
10. Industry Primary Professional Skills workshop
11. Microwave Electronics
12. Practical Training (Research Work)
13. Professional Internship
14. Radio Equipment Of Ultra-High Frequencies (Strong Pulse Technology)
15. Radion Engineering
16. Radio Systems of Electrophysical Installations
17. Scientific Research Work
18. Term Project (Electronics)
19. Ultra High-Frequency Electronics
20. Ultra High-Frequency Energy
21. Ultra High Frequency Techniques

Publication activity

1
h-index (Web of Science)
1
h-index (Scopus)
  1. Article
    Web of Science & Scopus
    The control of unprocessed oil stratums debit restoring by method of ultasound influence with well neutron generator // Journal of Physics: Conference Series, 2019 Vol. 1238, No. 1, Q4 doi
  2. Article
    Web of Science & Scopus
    Influence of microwave irradiation of cement mixtures on the strength of cement stone and concrete // Journal of Physics: Conference Series, 2018 Vol. 941, No. 1, Q4 doi
  3. Article
    Web of Science & Scopus
    Investigation of the Effect of Microwave Irradiation of Cement Slurries on the Strength of Cement Stone and Concrete // Atomic Energy, 2018 Vol. 123, No. 3, Q4 pp. 216-218 doi
  4. Article
    Web of Science & Scopus
    A Device for Measuring the Complex Dielectric Constant of Liquid Dielectrics // Instruments and Experimental Techniques, 2018 Vol. 61, No. 3, Q3 pp. 364-366 doi
  5. Article Investigation of the Influence of Microwave Irradiation of Cement Mixtures on the Strength of Cement Stone and Concrete // Atomic Energy, Springer New York Consultants Bureau, 2017 Vol. 123, No. 3 pp. 176-177
  6. Article
    Web of Science & Scopus
    Improved Design of an Experimental Rotary Induction Calcinator for Reprocessing Liquid Radwastes // Atomic Energy, 2016 Vol. 119, No. 6, Q3 pp. 424-427 doi
  7. Article
    MEPhI publication
    On the Possibility of the Heating of Dielectric Materials in a Microwave Setup // NUCLEAR PHYSICS AND ENGINEERING, 2016 Vol. Т. 7, No. N 3 pp. 220-224
  8. Article
    Web of Science & Scopus
    Modeling of Proton Beam Dynamics in an Accelerator-Driver at 600-1000 MeV and Investigation of the Electrodynamic Characteristics of Accelerating Cavities // ATOMIC ENERGY, 2015 Vol. 117, No. 5, Q3 pp. 347-356 doi
  9. Article
    Web of Science & Scopus
    Nanocrystal production in the presence of microwave radiation fields // Journal of Communications Technology and Electronics, 2015 Vol. 60, No. 5, Q3 pp. 507-511 doi
  10. Article
    Web of Science & Scopus
    CONCEPTUAL DEVELOPMENT OF A 600-1000 MeV PROTON BEAM ACCELERATOR-DRIVER WITH AVERAGE BEAM POWER > 1 MW // ATOMIC ENERGY, 2015 Vol. 117, No. 4, Q3 pp. 270-277 doi
  11. Article
    Web of Science & Scopus
    Dewatering of Salt Melts of Radioactive Wastes from NPP by Induction Heating // Atomic Energy, 2014 Q3 doi
  12. Article
    Web of Science & Scopus
    Study of possibility of 600-1000 MeV and 1 MW proton driver linac development in Russia // 24th Russian Particle Accelerator Conference, RuPAC 2014, 2014 pp. 324-326

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