Doç. Dr. Georgy MOZZHUKHIN
Fizik

Georgy MOZZHUKHIN
Telefon
(262) 1322
E-Posta
mgeorgegtu.edu.tr
Web sayfası
.
Ofis
C Blok, 105
Çalışma alanları
kuantum radyofiziği, nükleer quadrupole rezonans (NQR), nükleer manyetik rezonans (NMR), radyospektroskopide spin dinamiği, gevşeme ve çok frekanslı spektroskopi, NMR/NQR güvenlik uygulamaları.
Detaylı özgeçmiş
GEORGY_MOZZHUKHIN_ARBIS_OZGECMIS_2023.03.21.15.50.33.319.pdf

Articles
1. R. R. Khusnutdinov; G. V. Mozzhukhin; A. Konov; B. Z. Rameev; Y. Ozturk. Two-frequency flat gradiometer for searching explosives hidden under clothing. Appl.Magn. Reson., 52(12), 1787-1797, 2021
2. G.Mozzhukhin, B.Çolak, S. Mamadazizov, I. Mershiev, G.Kupriyanova, B.Rameev, Sensing System for 14N NQR Remote Detection of Explosives, Progress in Electromagnetics Research Symposium 2021-November, 2947 – 2952, 2021, 2021 Photonics and Electromagnetics Research Symposium, PIERS 2021
3. S. O. Garkavyi, V. L. Matukhin, E. V. Schmidt, R. R. Khusnutdinov, G. V. Mozzhukhin, NMR 63.65Cu in a Local Field and Relaxation of Nuclear Spins in a CuFeS2 Magnetic Semiconductor, Appl.Magn. Reson., 51, 2020, 135-143
4. S. Mamadazizov, M. G. Shelyapina, G. S. Kupriyanova, G. V. Mozzhukhin, New assignment of N-14 NQR spectral lines for tetrazoles derivatives. CHEMICAL PHYSICS, 506, 52-60, 2018.
5. Mozzhukhin, G.V., Kupriyanova, G.S., Mamadazizov, S.S., Maraşlı, A., Rameev, B.Z., Chem.Phys., 517, 273, January 2019
6. G.V. Mozzhukhin, G.V. Kupriyanova, S.Sh. Mamadazizov, A. Maraşlı, B.Z. Rameev, Low-field 14N nuclear magnetic resonance for detection of dangerous liquids, Chemical Physics, Volume 513, 129-134, 2018.
7. E. Balcı, B. Rameev. H. Acar. G.V. Mozzhukhin. B. Aktas¸ B.Colak. P.A. Kupriyanov. A.V. Ievlev. Y.S. Chernyshev. V.I. Chizhik. Development of Earth’s Field Nuclear Magnetic Resonance (EFNMR) Technique for Applications in Security Scanning Devices. Appl. Magn. Reson., (2016) 47:87–99
8. G. V. Mozzhukhin, J. Barras, G. Kupriyanova, B. Rameev, Two-Frequency Nuclear Quadrupole Resonance for Line Identification, Applied Magnetic Resonance: Volume 46, Issue 2 (2015), pp.161-179
9. E. Balcı, B. Rameev. H. Acar. G.V. Mozzhukhin. B. Aktas¸ B.Colak. P.A. Kupriyanov. A.V. Ievlev. Y.S. Chernyshev. V.I. Chizhik. Development of Earth’s Field Nuclear Magnetic Resonance (EFNMR) Technique for Applications in Security Scanning Devices. Appl. Magn. Reson., . 2015. DOI 10.1007/s00723-015-0730-z
10. V.I. Chizhik, P.A.Kupriyanov, G.V.Mozzhukhin, NMR in Magnetic Field of the Earth: Pre-Polarization of Nuclei with Alternating Magnetic Field , APPLIED MAGNETIC RESONANCE, Volume: 45 Issue: 7 Pages: 641-651 Published: JUL 2014
11. D. Ya. Osokin,R. R. Khusnutdinov,G. V. Mozzhukhin, B. Z. Rameev , Optimal filtering in multipulse sequences for nuclear quadrupole resonance detection, Technical Physics, 2014, vol.59, No 5, 749-753.
12. G.V.Mozzhukkin, B.Z.Rameev, R.R.Khusnutdinov, N.Doğan, B. Aktas, Three-frequency composite multipulse nuclear quadrupole resonance (NQR) technique for explosive detection, Applied Magnetic resonance, Volume 43, Issue 4 (2012), Page 547-556.
13. B.Z.Rameev, G.V.Mozzhukhin, B. Aktas, Magnetic Resonance Detection of Explosives and Illicit Materials, Applied Magnetic resonance, Volume 43, Issue 4 (2012), Page 463-467.
14. V.P.Anferov, G.V.Mozjoukhine, R.Fisher. Pulsed spectrometer for nuclear quadrupole resonance for remote detection of nitrogen in explosives. Rev.of Sci. Instr., vol.71, No.4, 2000, 1656-1659.
15. G.V.Mozjoukhine. The two-frequency NQR for explosives detection. Applied Magnetic Resonance, 18, 4, 2000, p.527-535.
16. G.V.Mozjoukhine. Application of the Spherical Tensor Method for Two Frequency Pure NQR of Spin I=1 Nuclei. Applied Mag. Res. 22, 31-46 (2002).
17. G.V.Mozjoukhine. The Frequency Offset Effects of NQR of Spin I = 1 for Remote Detection. Z.Naturforsch. 57a, 297-303(2002).
18. G.V.Mozzhukhin, B.Z.Rameev, N.Dogan,B. Aktas. The application of the two frequency composite pulses for NQR detection of nitrogen-based compounds. J Supercond & Nov Magn (2011) 24: 653–658,
19. G.V. Mozzhukhin, B.Z. Rameev, N. Doğan, B. Aktaş. Secondary signals in two-frequency nuclear quadrupole resonance on 14N nuclei with I = 1, Journal of Magnetic Resonance, Volume 193, Issue 1, Pages 49-53, 2008.
20. G. V. Mozzhukhin and S. V. Molchanov, Application of the Wavelet Transform for Detecting Signals of Nuclear Quadrupole Resonance, Russian physics Journal, 2005, Volume 48, Number 1, Pages 53-56
21. G. V. Mozzhukhin, A. V. Bodhya and V. V. Fedotov, Effect of 14N Nucleus Capture in Nuclear Quadrupole Resonance at Small Relaxation Parameters, Russian physics Journal, 2005, Volume 48, Number 4, Pages 383-386
22. G. V. Mozzhukhin, V. P. Anferov, V. S. Grechishkin and I. Ya. Sinyavskii, Observation of NQR with the aid of sequences of coherent pulses, Russian physics Journal 1986, Volume 29, Number 1, Pages 48-52
23. V. P. Anferov and G. V. Mozzhukhin, Composite pulse trains for nuclear quadrupole resonance, Russian physics Journal,1999, Volume 42, Number 9, Pages 826-829
24. G. V. Mozzhukhin, A. V. Efremov, A. V. Bodnya and V. V. Fedotov, A Two-Spiral Flat Coil for Detecting 14N NQR Signals, Russian physics Journal,2005, Volume 48, Number 9, Pages 978-983.
25. V. S. Grechishkin, N. Ya. Sinyavskii and G. V. Mozzhukhin, A unilateral NQR explosives detector, Russian physics Journal, 1992, Volume 35, Number 7, Pages 635-637
26. V. S. Grechishkin, G. V. Mozzhukhin, N. Ya. Sinyavskii and E. V. Yurepina, Two-frequency saturation in pulsed NQR of14N, Russian physics Journal, 1988, Volume 31, Number 8, Pages 647-649.
27. V. Anferova, V. S. Grechishkin, V. M. Mikhal'kov and G. V. Mozzhukhin, Determination of the interproton distances in amino groups using NMR-NQR double resonance data, Theoretical and Experimental Chemistry, 1983, Volume 19, Number 2, Pages 231-233
28. V.S.Grechishkin, G.V. Mozszhukhin (Mozzhukhin), A.V.Bodnya. The two frequency relaxation and superposition states. Journal of Mol. Structure, 83, 1982,101-104.
29. S.V.Anferova, G.V.Mozzhukhin et.al.,The solid effect in double NQR-NMR. Journal of structural Chem.(rus), 27,2, 1986,55-58.
30. S.V.Anferova, G.V.Mozzhukhin et al. The definition of proton distance in aminogroups by double NMR-NQR data. The theoretical and experimental chemistry(rus), 19, 2, 1983,255-257,
31. A.V.Belyakov, G.V.Mozzhukhin, T.N.Rudakov. A remote transducer of 14N NQR. INSTRUMENTS AND EXPERIMENTAL TECHNIQUES, v.36, No.1,1993,112-113.
32. G.V. Mozzhukhin, A.V.Bodnya, V.V.Fedotov, Chen Chun, Zhang Guojin, Guo Huamin. The Detection Of The Trinitrotoluene By Pure Nuclear Quadrupole Resonance. Appl.Magnetic Resonance, 29, 2005, 293-298
33. V. S. Grechishkin, G. V. Mozzhukhin and A. V. Bodnya, Two-frequency relaxation in pulsed nuclear quadrupole resonance, Russian physics Journal, 1983, Volume 26, Number 5, Pages 484-487
Books and book chapters
1. Magnetic Resonance Detection of Explosive and illicit materials, Eds: Bulat Rameev, Bekir Aktas and Georgy Mozzhukhin, Special Issue of Applied Magnetic Resonance, Volume 43, Issue 4, December 2012, Springer-Vienna. DOI: 10.1007/s00723-012-0423-9
2. Magnetic Resonance Detection of Explosives and Illicit Materials. Eds: T. Apih, B.Rameev, G.Mozzhukhin, J. Barras, NATO Science for Peace and Security Series B: Physics and Biophysics, Springer, 2014, ISBN: 978-94-007-7264-9
3. B.Rameev, G. Mozzhukhin, S. Tarapov, İ. Ünal, Magnetic Resonance & Microwave Detection of Improvised Explosives and Illicit Materials, In: Explosives Detection Sensors, Electronic Systems and Data Processing, Edited by Lorenzo Capineri, Eyüp Kuntay Turmuş, NATO Science for Peace and Security Series - B:Physics and Biophysics, Springer, 2019, 169-197.
4. V.I.Chizhik, P.A.Kupriyanov, G.V.Mozzhukhin, On question of possibilities of NMR in weak magnetic field for detection of illicit liquids. In: Nanotechnology in security system, Series: NATO Science for Peace and Security Series C: Environmental Security Eds:J.Bonca, S.Kruchinin,,2015, XVII, 287 p. 152 illus., ISBN 978-94-017-9004-8. Chapter 14, 2015, pp 151-164.
5. G.V. Mozzhukhin, B.Z.Ramev, G.S.Kupriyanova, B.Aktaş, Cross-Relaxation Enhanced NQR of Ammonium Nitrate in Low Magnetic Field, In: MAGNETIC RESONANCE DETECTION OF EXPLOSIVES AND ILLICIT MATERIALS, Book Series: NATO Science for Peace and Security Series B-Physics and Biophysics Pages: 45-59 Published: Springer, 2014.
6. N. Sinyavsky, G. Mozzhukhin, P. Dolinenkov, Size effect in 14N nuclear quadrupole resonance spectroscopy. In: MAGNETIC RESONANCE DETECTION OF EXPLOSIVES AND ILLICIT MATERIALS Book Series: NATO Science for Peace and Security Series B-Physics and Biophysics Pages: 69-76 Published: Springer, 2014
7. G.V.Mozzhukhin, S.V.Molchanov, G.S.Kupriyanova, A.V.Bodnya, V.V.Fedotov, Hao Guoxin, Jin Yanbo, Ren Tianliang, Zhang Guojin.- The Detection of Industrial Explosives by the Quadrupole Resonance Method: Some Aspects of the Detection of Ammonium Nitrate and Trinitrotoluene; In:Explosives Detection using Magnetic and Nuclear Resonance Techniques. Series: NATO Science for Peace and Security Series. Subseries: NATO Science for Peace and Security Series B: Physics and Biophysics. Fraissard, Jacques; Lapina, Olga (Eds.) Springer 2009, 295 p., 14 pages, 231-244
8. G.V. Mozzhukhin et al.- The Two-Frequency Multipulse Sequence in Nuclear Quadrupole Resonance of N-14 Nuclei; In: Explosives Detection using Magnetic and Nuclear Resonance Techniques. Series: NATO Science for Peace and Security Series. Subseries: NATO Science for Peace and Security Series B: Physics and Biophysics. Fraissard, Jacques; Lapina, Olga (Eds.) Springer, 2009, 295 p., pages 205-230.
9. G.V.Mozzhukhin, B.Rameev, Nuclear Quadrupole resonance, Chapter 7.3, In book:Subsurface Sensing, editors Ahmet S. Turk, Koksal A. Hocaoglu, Alexey A. Vertiy, Wiley edition, 429-450, September 2011
Procedings
1. B. Rameev, G.V. Mozzhukhin, R.Khusnutdinov, B.Aktas, A. Konov, N.A. Krylatyh, Ya.V. Fattakhov, D.D. Gabidullin, K.M. Salikhov, SPIE Proceeding. DSS12 - SPIE Defense, Security, and Sensing, 8357 - 33 V. 1, 83570Z(2012).
2. R.R. Khusnutdinov, G. V. Mozzhukhin, A. Konov, B. Z. Rameev, Yavuz Ozturk. Two-frequency flat gradiometer for searching explosives hidden under clothing – modeling and experiment. In: Magnetic resonance and its application, SPINUS-2021, Proceedings, Saint Petersburg State University, ISSN 2542-2049, pp.110-113, 2021.
3. G. V. Mozzhukhin, G. S. Kupriyanova, S. Mamadazizov, M. Vafadar, B. Z. Rameev, Quadrupole coupling constants in compounds with aminogroups in liquids. . In: Magnetic resonance and its application, SPINUS-2021, Proceedings, Saint Petersburg State University, ISSN 2542-2049,pp.149-152, 2021.
4. S. Mamadazizov, G. V. Mozzhukhin, G. S. Kupriyanova, 14N Quadrupole Coupling Constants calculation in some compounds with amino groups, . In: Magnetic resonance and its application, SPINUS-2021, Proceedings, Saint Petersburg State University, ISSN 2542-2049,pp.228-229, 2021
5. G. Mozzhukhin, A. Maraşlı, S. Mamadazizov, B. C.Çolak3, and B. Rameev, Remote Sensing for the Detection of Explosives and Energetic Materials by 14N NQR and 14N NMR, , 2019 PhotonIcs & Electromagnetics Research Symposium — Spring (PIERS — SPRING), PIERS 2019 Rome, ITALY, Proceedings, pp. 4001-4007, IEEE Xplore, DOI: 10.1109/PIERS-Spring46901.2019
6. S. Mamadazizov, G. Kupriyanova, M. Shelyapina, G. Mozzhukhin, B. Rameev, 14N NQR study of tetrazole derivatives for potential applications in security, detection of counterfeit drugs and pharmaceutics, 2019 PhotonIcs & Electromagnetics Research Symposium — Spring (PIERS — SPRING), PIERS 2019 Rome, ITALY, Proceedings, 2183-2188, IEEE Xplore, DOI: 10.1109/PIERS-Spring46901.2019
7. G. V. Mozzhukhin, G.S.Kupriyanova, S. Sh. Mamadazizov, B. Z. Rameev, Low field 14N NMR as a tool for estimation of quadrupole coupling constants and correlation times in liquids, In: Magnetic resonance and its application, SPINUS-2019, Proceedings, Saint Petersburg State University, ISSN 2542-2049, pp.50-52,2019
8. G.S.Kupriyanova, S. Sh. Mamadazizov, G. V. Mozzhukhin, 14N NQR relaxation in 5 aminitetrazole, In: Magnetic resonance and its application, SPINUS-2019, Proceedings, Saint Petersburg State University, ISSN 2542-2049, pp.96-97,2019
9. C. Okay, A.Maraşli, G. V. Mozzhukhin, B. Z. Rameev, 1H relaxation times of alcohol-water mixter, In: Magnetic resonance and its application, SPINUS-2019, Proceedings, Saint Petersburg State University, ISSN 2542-2049, pp.103-105,2019.
10. S.O. Garkavyi, E.V. Schmidt, V.L. Matukhin, R.R. Khusnutdinov, G.V. Mozzhukhin, N.K. Andreev, Spin lattice relaxation of nuclei in magnetic semiconductor compounds CuFeS2, In: Magnetic resonance and its application, SPINUS-2019, Proceedings, Saint Petersburg State University, ISSN 2542-2049, pp.173-175,2019.
11. G. V. Mozzhukhin, G. S. Kupriyanova, S. Mamadazizov and B. Z. Rameev, 14N NQR and 14N NMR Detection of Explosive and Dangerous Compositions, In: ATMOSPHERE, IONOSPHERE, SAFETY / edited by I.V. Karpov, O.P. Borchevkina.—Kaliningrad, 2018. —Pt. 2—259p. ISBN 978-5-9971-0492-4(Pt. 2), Proceedings of VI International conference, Kaliningrad 2018, pp.217-222.
12. G. Mozzhukhin, G. Kupriyanova, I. Mershiev, S. Molchanov, Signal Processing in NMR/NQR Detection on the Base of Pattern Signal, 9th International Kharkiv Symposium on Physics and Engineering of Microwaves, Millimeter and Submillimeter Waves (MSMW), 2016, pp.1-3. IEEE Xplore, DOI: 10.1109/ MSMW.2016.7538152,august 2016
13. A.Guler, C. Boyraz, D. Shulgin, G. Mozzhukhin, B. Rameev, Synthesis and Characterization of Tetrahedrite Compounds for Thermoelectric Applications, 9th International Kharkiv Symposium on Physics and Engineering of Microwaves, Millimeter and Submillimeter Waves (MSMW), 2016, pp.1-4, IEEE Xplore, DOI:10.1109/MSMW.2016.7538109, august 2016
14. G.S.Kupriyanova, S. Sh. Mamadazizov, G. V. Mozzhukhin, B. Z. Rameev, 14N relaxation study of tetrazole derivatives, In: Magnetic resonance and its application, SPINUS-2020, Proceedings, Saint Petersburg State University, ISSN 2542-2049, pp.106-107,2020
15. G. V. Mozzhukhin, G.S.Kupriyanova, S. Sh. Mamadazizov, B. Z. Rameev, The studies of temperature-dependent 14N NMR relaxation, In: Magnetic resonance and its application, SPINUS-2019, Proceedings, Saint Petersburg State University, ISSN 2542-2049, pp.115-116, 2020
16. G.V. Mozzhukhin, G.S. Kupriyanova, A. Maraşlı, S.S. Mamadazizov,. M. Vafadar, A. Rameev, 1H NMR detection of liquids in bottles with use of surface coils, In: Magnetic resonance and its application, SPINUS-2020, Proceedings, Saint Petersburg State University, ISSN 2542-2049, pp.117-119, 2020.
PATENTS
1. G.V.Mozzhukhin, R.R.Khusnutdinov, B.Z.Rameev, I.Kh.Khabibullin, The method of the detection of three frequency NQR, patent application RU 2011131799A, published 10.02.2013.
2. G.V.Mozzhukhin,I.G.Mershiev, S.V.Moltchanov, G.S.Kupriyanova, The method of the detection of Nuclear Quadrupole and Nuclear Magnetic Resonance, patent application RU 2011101684, published 27.07.2012
3. G.V. Mozzhukhin, A.V.Bodnya, V.V.Fedotov, The device for the detection and identifying of chemical compounds. Patent RU 2006108461/28, 27.09.2007 bul. 27
4. V.S.Grechishkin, G.V.Mozjoukhine. The method of identification of chemical compounds. Patent of USSR 1303915, 15.12.1986.
5. V.S.Grechishkin, G.V.Mozjoukhine., N.Ya.Sinyavski. The method of the records of NQR spectra. Patent of USSR 278728, 01.07.1988.
6. G.V. Mozzhukhin, A.V.Bodnya, V.V.Fedotov,The method of the detection and identifying of chemical compounds, Patent RU 289124 C1, 10.12.2006, Bul.34.

1 –Moltchanov S.V.” The development of the methods of nuclear quadrupole signal processing”,
2011 Rusya.

2.
Ayşe Maraşlı, “Sanayi ve güvenlik uygulamaları için zaman boyutlu NMR cihazının geliştirilmesi”,
2022, GTÜ, Türkiye

  • Doktora: •Doktora: Saint-Petersburg Electrotechnical University, Rusya -1988

  • Yüksek lisans: Kaliningrad Devlet Üniversitesi – 1977
  • Lisans: Kaliningrad Devlet Üniversitesi – 1977
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