федеральное государственное автономное образовательное учреждение высшего образования
«Самарский национальный исследовательский университет имени академика С.П. Королева»

Загидуллин Марсель Вакифович

  • Кафедра физики, профессор

Scopus/WoS

2023
  • 1 He C., Kaiser R.I., Lu W. etc. Unconventional Pathway in the Gas-Phase Synthesis of 9H-Fluorene (C13H10) via the Radical–Radical Reaction of Benzyl (C7H7) with Phenyl (C6H5) // Angewandte Chemie - International Edition 2023. — Vol. 62. Issue 6. № 6.
2022
  • 1 Kaiser R.I., Zhao L., Lu W. etc. Formation of Benzene and Naphthalene through Cyclopentadienyl-Mediated Radical-Radical Reactions // Journal of Physical Chemistry Letters 2022. — P. 208-213
2021
  • 1 Zhao L., Lu W., Ahmed M. etc. Gas-phase synthesis of benzene via the propargyl radical self-reaction // Science Advances 2021. — Vol. 7. Issue 21.
2020
  • 1 Krasnoukhov V. S. , Zagidullin M.V., Zavershinskiy I. P. etc. Formation of Phenanthrene via Recombination of Indenyl and Cyclopentadienyl Radicals: A Theoretical Study // Journal of Physical Chemistry A 2020. — Vol. 124. Issue 48. — P. 9933-9941
  • 2 Krasnoukhov V. S. , Porfiriev D.P., Zagidullin M.V. etc. The study of indenyl + cyclopentadienyl reaction // AIP Conference Proceedings. — 2020. — Vol. 2304.
  • 3 Medvedkov Ya. A. , Tolstov G. I. , Porfiriev D.P. etc. Simulation of the complete mechanism of oxidation of phenyl radical under combustion conditions // AIP Conference Proceedings. — 2020. — Vol. 2304.
2019
  • 1 Zagidullin M.V., Khvatov N.A., Medvedkov Ya. A. etc. O2(b1Σg+) removal by I2 and NO at temperatures of 297–750 K // Chemical Physics Letters 2019. — Vol. 735.
  • 2 Zhao L., Kaiser R.I., Xu B. etc. Gas phase synthesis of [4]-helicene // Nature Communications 2019. — Vol. 10. Issue 1.
  • 3 Khvatov N. A. , Zagidullin M.V., Tolstov G. I. etc. Product channels of the reactions of O2(b1Σg+) // Chemical Physics 2019. — Vol. 521. — P. 85-91
2018
  • 1 Torbin A.P., Pershin A.A., Mebel A.M. etc. Collisional relaxation of O2(a1Δ υ = 1, 2, 3) by CO2 // Chemical Physics Letters 2018. — Vol. 691. — P. 456-461
  • 2 Tolstov G. I. , Zagidullin M.V., Khvatov N. A. etc. Measurements of rate constants of O2(b) quenching by CH4, NO, N2O at temperatures 300-800 K // MATEC Web of Conferences. — 2018. — Vol. 209.
  • 3 Zagidullin M.V., Kaiser R.I., Porfiriev D.P. etc. Functional Relationships between Kinetic, Flow, and Geometrical Parameters in a High-Temperature Chemical Microreactor // Journal of Physical Chemistry A 2018. — Vol. 122. Issue 45. — P. 8819-8827
  • 4 Zagidullin M.V., Kaiser R.I., Ahmed M. etc. Kinetics of C10H7Br Pyrolysis // Bulletin of the Lebedev Physics Institute 2018. — Vol. 45. Issue 10. — P. 314-317
  • 5 Tolstov G.I., Zagidullin M.V., Khvatov N.A. etc. O2(b1+g) relaxation in active medium of oxygen-iodine laser // Progress in Biomedical Optics and Imaging - Proceedings of SPIE. — 2018. — Vol. 10717.
  • 6 Zagidullin M.V., Khvatov N.A., Tolstov G.I. etc. O2(b 1g+) Removal by H2, CO, N2O, CH4, and C2H4 in the 300-800 K Temperature Range // Journal of Physical Chemistry A 2018. — Vol. 122. Issue 24. — P. 5283-5288
  • 7 Tolstov G. I. , Zagidullin M.V., Khvatov N. A. etc. Temperature dependent rate constants for O2(b) deactivation by O2(X) // Proceedings - International Conference Laser Optics 2018, ICLO 2018. — 2018. — P. 85
  • 8 Zhao L., Kaiser R.I., Xu B. etc. VUV Photoionization Study of the Formation of the Simplest Polycyclic Aromatic Hydrocarbon: Naphthalene (C10H8) // Journal of Physical Chemistry Letters 2018. — Vol. 9. Issue 10. — P. 2620-2626
  • 9 Torbin A., Pershin A., Zagidullin M. etc. Ozone recovery in the presence of CO and N2O // MATEC Web of Conferences. — 2018. — Vol. 209.
  • 10 Pershin A.A., Torbin A.P., Zagidullin M.V. etc. Rate constants for collision-induced emission of O2(a1Δg) with He, Ne, Ar, Kr, N2, CO2 and SF6 as collisional partners // Physical Chemistry Chemical Physics 2018. — Vol. 20. Issue 47. — P. 29677-29683
2017
  • 1 Zagidullin M.V., Khvatov N.A., Malyshev M.S. etc. Dissociation of iodine molecules and singlet oxygen generation in O2-I2 mixture induced by 1315-nm laser radiation // Quantum Electronics 2017. — Vol. 47. Issue 10. — P. 932-934
  • 2 Zagidullin M.V., Khvatov N.A., Medvedkov Ya. A. etc. O2 (b1Σg+) quenching by O2, CO2, H2O, and N2 at temperatures of 300-800K // Journal of Physical Chemistry A 2017. — Vol. 121. Issue 39. — P. 4343-4348
  • 3 Yang T., Kaiser R.I., Troy T.P. etc. HACA's Heritage: A Free-Radical Pathway to Phenanthrene in Circumstellar Envelopes of Asymptotic Giant Branch Stars // Angewandte Chemie - International Edition 2017. — Vol. 56. Issue 16. — P. 4515-4519
  • 4 Zagidullin M.V., Malyshev M.S. Optically pumped oxygen-iodine laser // Proceedings of SPIE - The International Society for Optical Engineering. — 2017. — Vol. 10254.
  • 5 Zagidullin M.V., Khvatov N.A., Malyshev M.S. Results of experiments on iodine dissociation in active medium of oxygen-iodine laser // Proceedings of SPIE - The International Society for Optical Engineering. — 2017. — Vol. 10254.
2016
  • 1 Zagidullin M.V., Azyazov V.N., Malyshev M.S. etc. Prospect of optically pumped oxygen laser // Proceedings - 2016 International Conference Laser Optics, LO 2016. — 2016. — P. R216
  • 2 Malyshev M.S., Zagidullin M.V. Impact of water vapor concentration on O2(a) yield in optically pumped oxygen-iodine laser // Proceedings - 2016 International Conference Laser Optics, LO 2016. — 2016. — P. R26
  • 3 Pershin A.A., Mebel A.M., Zagidullin M.V. etc. Ab initio calculations of transition dipole moments of (O2)2 complex // Proceedings - 2016 International Conference Laser Optics, LO 2016. — 2016. — P. R27
  • 4 Zagidullin M.V., Malyshev M.S., Khvatov N.A. Experimental study of iodine dissociation in active medium of oxygen-iodine laser // Proceedings - 2016 International Conference Laser Optics, LO 2016. — 2016. — P. R217
  • 5 Zagidullin M.V., Malyshev M.S., Azyazov V.N. etc. Optical pumping of the oxygen-iodine laser medium // Proceedings of SPIE - The International Society for Optical Engineering. — 2016. — Vol. 9729.
  • 6 Zagidullin M.V., Khvatov N.A., Malyshev M.S. etc. Experimental results on the dissociation of molecular iodine in the presence of singlet oxygen molecules // Quantum Electronics 2016. — Vol. 46. Issue 8. — P. 706-712
  • 7 Pershin, A. A., Mebel, A. M., Zagidullin, M. V. etc. Ab initio Calculations of Transition Dipole Moments of (O-2)(2) Complex // 2016 INTERNATIONAL CONFERENCE LASER OPTICS (LO). — 2016. —
2015
  • 1 Zagidullin M.V., Pershin A.A., Azyazov V.N. etc. Luminescence of the (O2(a 1Δg))2 collisional complex in the temperature range of 90-315 K: Experiment and theory // The Journal of chemical physics 2015. — Vol. 143. Issue 24.
  • 2 Zagidullin M.V., Malyshev M.S., Azyazov V.N. Kinetics of an oxygen-iodine active medium with iodine atoms optically pumped on the 2P1/2-2P3/2 transition // Quantum Electronics 2015. — Vol. 45. Issue 8. — P. 720-724
  • 3 Zagidullin M.V., Khvatov N.A., Insapov A.S. 1.27-μm emission of O2(1Δ) induced by collisions with oxygen molecules // Optics and Spectroscopy 2015. — Vol. 118. Issue 5. — P. 693-696
  • 4 Zagidullin M.V., Torbin A.P., Chernyshov A.A. etc. Gas Flow Visualization Using Laser-induced Fluorescence // Procedia Engineering. — 2015. — Vol. 106. — P. 92-96
  • 5 Zagidullin M.V., Pershin A.A., Azyazov V.N. etc. Luminescence of the (O2 (a1Δg)) 2 collisional complex in the temperature range of 90-315 K: Experiment and theory // The Journal of chemical physics 2015. — № Vol. 143, Iss. 24. — P. 244315-244327
2014
  • 1 Zagidullin M.V., Svistun M.I., Khvatov N.A. etc. Collision-induced emission of singlet oxygen in the visible spectral region at temperatures of 90-315 K // Optics and Spectroscopy (English translation of Optika i Spektroskopiya) 2014. — Vol. 116. Issue 4. — P. 542-547
  • 2 Malyshev M., Zagidullin M. Prospect of optically pumped oxygen-iodine lasers // Proceedings - 2014 International Conference Laser Optics, LO 2014. — 2014. —
2013
  • 1 Zagidullin M. V. , Khvatov N.A., Svistun M.I. etc. Kinetics of energy deactivation in the O2(1 // Russian Journal of Physical Chemistry B V. 7, Iss. 3. P. 196-202, 2013 2013. — № 32. — P. 196-202
  • 2 Zagidullin M.V., Khvatov N.A., Svistun M.I. etc. Kinetics of energy deactivation in the O2(1Δ)-I medium // Russian Journal of Physical Chemistry B 2013. — Vol. 7. Issue 3. — P. 196-202
2012
  • 1 Zagidullin M.V., Khvatov N.A., Malyshev M.S. etc. Dissociation of molecular iodine in a flow tube in the presence of O 2( 1∑) molecules // Journal of Physical Chemistry A 2012. — Vol. 116. Issue 41. — P. 10050-10053
  • 2 ZAGIDULLIN M.V., Khvatov N.A., Malyshev M.S. etc. Dissociation of Molecular Iodine in Flow Tube in the Presence of O2(1sigma) Molecules // Journal Phys Chem. A 2012. — № 116(41). — P. 10050 - 10053
2011
  • 1 Zagidullin M.V. The rate constants of singlet oxygen collision-induced emission at 634 and 703 nm wavelengths // Russian Journal of Physical Chemistry B 2011. — Vol. 5. Issue 1. — P. 3-7
  • 2 Zagidullin M.V., Khvatov N.A., Malyshev M.S. Kinetics of formation of O 2( 1∑) molecules in reactions involving excited O 2( 1Δ) Oxygen Molecules and I( 2P 1/2) iodine atoms // Russian Journal of Physical Chemistry B 2011. — Vol. 5. Issue 6. — P. 969-973
  • 3 Zagidullin M.V., Khvatov N.A., Nyagashkin A.Yu. Kinetics of O2(1Σ) formation in the reaction O2(1Δ) + O2(1Δ) → O2(1Σ) + O2(3Σ) // Quantum Electronics 2011. — Vol. 41. Issue 2. — P. 135-138
2010
  • 1 Mikheyev P.A., Zagidullin M.V., Ufimtsev N.I. etc. COIL operation with iodine atoms generated in a glow discharge // Proceedings of SPIE - The International Society for Optical Engineering. — 2010. — Vol. 7751.
  • 2 Mikheyev P.A., Zagidullin M.V., Azyazov V.N. Chemical oxygen-iodine laser with external production of iodine atoms in CH3I/Ar dc glow discharge // Applied Physics B: Lasers and Optics 2010. — Vol. 101. Issue 1-2. — P. 7-10
  • 3 Zagidullin M.V., Khvatov N.A. Kinetics of O2(1Δ) self-quenching in the O 2-O2(1Δ)-H2O gas mixture // Quantum Electronics 2010. — Vol. 40. Issue 9. — P. 800-803
  • 4 Zagidullin M.V., Khvatov N.A. Kinetics of O2(1D) self-quenching in the О2 – O2(1D) – Н2О gas mixture // Quantum Electronics 2010. — № Volume 40, Issue 9. — P. 800-803
  • 5 Zagidullin M.V. The temperature dependence of the spectral width of singlet oxygen dimole emission // Optics and Spectroscopy (English translation of Optika i Spektroskopiya) 2010. — Vol. 109. Issue 4. — P. 538-542
  • 6 Zagidullin M.V. Nonequilibrium population of the first vibrational level of O 2(1∑) molecules in O2-O2( 1Δ) - H2O gas flow at the output of chemical singlet-oxygen generator // Quantum Electronics 2010. — Vol. 40. Issue 9. — P. 794-799
  • 7 Zagidullin M.V., Khvatov N.A., Mikheyev P.A. Results of measurements of the absolute spectral irradiance from O 2(a)-O2-H2O gas produced by chemical singlet oxygen generator // Proceedings of SPIE - The International Society for Optical Engineering. — 2010. — Vol. 7751.
  • 8 Zagidullin M.V. Nonequilibrium population of the first vibrational level of O2(1S) molecules in O2 – O2(1D) – H2O gas flow at the output of chemical singlet-oxygen generator // Quantum Electronics 2010. — № Volume 40, Issue 9. — P. 794-799
2009
  • 1 Zagidullin M.V., Nikolaev V.D., Khvatov N.A. etc. Supersonic COIL driven by centrifugal bubbling SOG with efficient depletion of chemicals in single pass // Proceedings of SPIE - The International Society for Optical Engineering. — 2009. — Vol. 7131.
2008
  • 1 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Diagnostics of an O2(1Δ) generator using multichannel recording of oxygen emission spectra // Optics and Spectroscopy (English translation of Optika i Spektroskopiya) 2008. — Vol. 105. Issue 2. — P. 202-207
  • 2 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Centrifugal bubble O2 (1Δ) gas generator with a total pressure of 100 Torr // Quantum Electronics 2008. — Vol. 38. Issue 8. — P. 794-800
2007
  • 1 Zagidullin M.V., Nikolaev V.D., Khvatov N.A. etc. Performance of high pressure COIL with centrifugal bubble singlet oxygen generator // Proceedings of SPIE - The International Society for Optical Engineering. — 2007. — Vol. 6346 PART 1.
  • 2 Zagidullin M.V., Nikolaev V.D., Khvatov N.A. etc. Advanced singlet oxygen generator and nozzle bank in traditional COIL technology // Proceedings of SPIE - The International Society for Optical Engineering. — 2007. — Vol. 6735.
  • 3 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Perspective methods for the generation of COIL gain medium // Proceedings of SPIE - The International Society for Optical Engineering. — 2007. — Vol. 6611.
  • 4 Zagidullin M.V., Azyazov V.N., Pichugin S.Yu. I2 dissociation pathways in the COIL medium // Proceedings of SPIE - The International Society for Optical Engineering. — 2007. — Vol. 6735.
  • 5 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Results of testing a centrifugal bubble singlet-oxygen generator // Journal of Engineering Physics and Thermophysics 2007. — Vol. 80. Issue 3. — P. 555-562
  • 6 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Singlet oxygen generator based on the reaction of chlorine with filament-guided jets of basic hydrogen peroxide // Theoretical Foundations of Chemical Engineering. — 2007. — Vol. 41. Issue 2. — P. 164-170
2005
  • 1 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Efficient COIL driven by SOG with filament-guided jets // Proceedings of SPIE - The International Society for Optical Engineering. — 2005. — Vol. 5777. Issue PART I. — P. 58-61
  • 2 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Oxygen - Iodine ejector laser with a centrifugal bubbling singlet-oxygen generator // Quantum Electronics 2005. — Vol. 35. Issue 10. — P. 907-908
  • 3 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Characteristics of the gain medium for an ejector COIL with supersonic nozzles for the driver buffer gas // Applied Physics A: Materials Science and Processing 2005. — Vol. 81. Issue 2. — P. 311-315
  • 4 Kodymová J., Hrubý J., Špalek O. etc. Advanced concepts of singlet oxygen generator for a chemical oxygen-iodine laser // 36th AIAA Plasmadynamics and Lasers Conference. — 2005. —
  • 5 Nikolaev V.D., Hager G.D., Svistun M.I. etc. Ejector COIL with supersonic nozzles for driver N 2 // Proceedings of SPIE - The International Society for Optical Engineering. — 2005. — Vol. 5777. Issue PART I. — P. 160-163
  • 6 Zagidullin, MV, Nikolaev, VD, Svistun, MI etc. Oxygen-iodine ejector laser with a centrifugal bubbling singlet-oxygen generator // Quantum Electronics 2005. — Vol. 35. Issue 10. — P. 907-908
  • 7 Nikolaev V.D., Svistun M.I., Zagidullin M.V. etc. Efficient chemical oxygen-iodine laser powered by a centrifugal bubble singlet oxygen generator // Applied Physics Letters 2005. — Vol. 86. Issue 23. — P. 1-2
  • 8 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Oxygen-iodine ejector laser with a centrifugal bubbling singlet-oxygen generator // Kvantovaya Elektronika 2005. — Vol. 35. Issue 10. — P. 907-908
2004
  • 1 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. High gain, high pressure, highly efficient COIL // Proceedings of SPIE - The International Society for Optical Engineering. — 2004. — Vol. 5448. Issue PART 2. — P. 1139-1149
  • 2 Nikolaev V.D., Svistun M.I., Zagidullin M.V. Ejector COIL // Proceedings of SPIE - The International Society for Optical Engineering. — 2004. — Vol. 5479. — P. 10-18
2003
  • 1 Hager G.D., Nikolaev V.D., Svistun M.I. etc. Lasing performance of a chemical oxygen iodine laser (COIL) with advanced ejector-nozzle banks // Applied Physics A: Materials Science and Processing 2003. — Vol. 77. Issue 2. — P. 325-329
  • 2 Beránek J., Rohlena K., Zagidullin M.V. A Simplified 1d Kinetic Model for a Subsonic COIL with a "Mixing Term" in Spatially Dependent Kinetic Equation for I2 Molecules // Proceedings of SPIE - The International Society for Optical Engineering. — 2003. — Vol. 5120. — P. 386-391
2002
  • 1 Nikolaev V.D., Zagidullin M.V., Svistun M.I. etc. Results of small-signal gain measurements on a supersonic chemical oxygen iodine laser with an advanced nozzle bank // IEEE Journal of Quantum Electronics 2002. — Vol. 38. Issue 5. — P. 421-428
  • 2 Zagidullin M.V., Nikolaev V.D., Palina N.Yu. etc. Effect of the solution temperature in a singlet-oxygen generator on the formation of active medium in an ejector oxygen-iodine laser // Quantum Electronics 2002. — Vol. 32. Issue 2. — P. 101-106
  • 3 Khvatov N.A., Nikolaev V.D., Svistun M.I. etc. Lasing performance of a Chemical Oxygen Iodine Laser (COIL) with advanced ejector nozzle banks // Proceedings of SPIE - The International Society for Optical Engineering. — 2002. — Vol. 4760. Issue I. — P. 550-559
  • 4 Zagidullin M.V., Nikolaev V.D., Palina N.Yu. etc. Effect of the solution temperature in a singlet-oxygen on the formation of the active medium in an ejector oxygen-iodine laser // Kvantovaya Elektronika 2002. — Vol. 32. Issue 2. — P. 101-107
2001
  • 1 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Amplification and gas-dynamic characteristics of the active oxygen-iodine medium produced by an ejector nozzle unit // Kvantovaya Elektronika 2001. — Vol. 31. Issue 8. — P. 678-682
  • 2 Zagidullin M.V., Nikolaev V.D. Calculation of the mixing chamber of the ejector of a chemical oxygen-iodine laser // Kvantovaya Elektronika 2001. — Vol. 31. Issue 6. — P. 510-514
  • 3 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Temperature dependence of shock line spreading of 2P1/2-2R3/2 of atomic iodine // Kvantovaya Elektronika 2001. — Vol. 31. Issue 4. — P. 373-376
  • 4 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Efficient chemical oxygen-iodine laser with a high total pressure of the active medium // Kvantovaya Elektronika 2001. — Vol. 31. Issue 1. — P. 30-34
  • 5 Zagidullin M.V., Nikolaev V.D. Calculation of the mixing chamber of an ejector chemical oxygen-iodine laser // Quantum Electronics 2001. — Vol. 31. Issue 6. — P. 510-514
  • 6 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Efficient chemical oxygen-iodine laser with a high total pressure of the active medium // Quantum Electronics 2001. — Vol. 31. Issue 1. — P. 30-34
  • 7 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Amplification and gas-dynamic parameters of the active oxygen-iodine medium produced by an ejector nozzle unit // Quantum Electronics 2001. — Vol. 31. Issue 8. — P. 678-682
  • 8 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Temperature dependence of the collision broadening of the 2P1/2-2P3/2 line of atomic iodine // Quantum Electronics 2001. — Vol. 31. Issue 4. — P. 373-376
2000
  • 1 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Supersonic oxygen - Iodine 1.4-kW laser with a 5 cm gain length and a nitrogen-diluted active medium // Quantum Electronics 2000. — Vol. 30. Issue 2. — P. 161-166
  • 2 Nikolaev V.D., Zagidullin M.V., Madden T.J. etc. An efficient supersonic coil with more than 200 torr of total pressure in the active medium // 31st Plasmadynamics and Lasers Conference. — 2000. —
  • 3 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Supersonic oxygen-iodine 1.4-kW laser with a 5-cm amplification length and a nitrogen-diluted active medium // Kvantovaya Elektronika 2000. — Vol. 30. Issue 2. — P. 166
1999
  • 1 Zagidullin M.V., Nikolaev V.D. Modern status and perspectives of chemical oxygen-iodine lasers // Izvestiya Akademii Nauk. Ser. Fizicheskaya 1999. — Vol. 63. Issue 10. — P. 1901-1908
  • 2 Zagidullin Marsel V., Nikolaev Valery D. COIL with longitudinal pumping out and small iodine flow rate // Proceedings of SPIE - The International Society for Optical Engineering 1999. — Vol. 3612. — P. 175-181
  • 3 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Efficient chemical oxygen-iodine laser with longitudinal flow of the active medium // Quantum Electronics 1999. — Vol. 29. Issue 2. — P. 114-116
  • 4 Nikolaev Valery, Zagidullin M. Current COIL research in Lebedev Physical Institute, Samara Branch // CLEO/Pacific Rim 1999 - Pacific Rim Conference on Lasers and Electro-Optics. — 1999. — Vol. 2. — P. 149-150
  • 5 Nikolaev V.D., Zagidullin M.V. Completely scaleable 1 kW class COIL with verti-JSOG and nitrogen buffer gases // 30th Plasmadynamic and Lasers Conference. — 1999. —
  • 6 Zagidullin M.V., Nikolaev V.D. State of the art and perspectives of chemical oxygen-iodine lasers // Proceedings of SPIE - The International Society for Optical Engineering 1999. — Vol. 3688. — P. 54-61
  • 7 Zagidullin, MV, Nikolaev, VD Modern status and perspectives of chemical oxygen-iodine lasers // IZVESTIYA AKADEMII NAUK SERIYA FIZICHESKAYA 1999. — Vol. 63. Issue 10. — P. 1901-1908
  • 8 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Efficient oxygen-iodine chemical laser with a longitudinal injection of the active medium // Kvantovaya Elektronika 1999. — Vol. 26. Issue 3. — P. 116
  • 9 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Efficient oxygen-iodine chemical laser with a longitudinal injection of the active medium // Kvantovaya Elektronika 1999. — Vol. 26. Issue 2. — P. 116
1998
  • 1 Azyazov, VN, Zagidullin, MV, Nikolaev, VD etc. Kinetics of chemisorption of Cl-2 by H2O-H2O2-KOH and H2O-KOH solutions // Zhurnal Fizicheskoi Khimii 1998. — Vol. 72. Issue 10. — P. 1850-1854
  • 2 Azyazov V.N., Zagidullin M.V., Nikolaev V.D. etc. Kinetics of chemisorption of Cl2 by H2O-H2O2-KOH and H2O-KOH solutions // Russian Journal of Physical Chemistry A 1998. — Vol. 72. Issue 10. — P. 1681-1684
  • 3 Zagidullin M.V., Nikolaev V.D., Khvatov N.A. etc. The sub- and supersonic COILs driven by a jet-type singlet oxygen generator // Proceedings of SPIE - The International Society for Optical Engineering. — 1998. — Vol. 3574. — P. 246-252
  • 4 Endo M., Nagatomo S., Takeda S. etc. High-efficiency operation of chemical oxygen-iodine laser using nitrogen as buffer gas // IEEE Journal of Quantum Electronics 1998. — Vol. 34. Issue 3. — P. 393-398
  • 5 Zagidullin M.V. Jet-type singlet oxygen generator for COIL // Proceedings of SPIE - The International Society for Optical Engineering. — 1998. — Vol. 3574. — P. 569-576
  • 6 Azyazov V.N., Zagidullin M.V., Nikolaev V.D. etc. Kinetics of chemisorption of Cl2 by H2O-H2O2-KOH and H2O-KOH solutions // Zhurnal Fizicheskoi Khimii 1998. — Vol. 72. Issue 10. — P. 1850-1854
  • 7 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Comparative characteristics of subsonic and supersonic oxygen-iodine lasers // Quantum Electronics 1998. — Vol. 28. Issue 5. — P. 400-402
  • 8 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Comparative characteristics of subsonic and supersonic oxygen-iodine lasers // Kvantovaya Elektronika 1998. — Vol. 25. Issue 5. — P. 415
1997
  • 1 Zagidullin M.V., Nikolaev V.D. Gain saturation and the efficiency of energy conversion into radiation in a supersonic oxygen-iodine laser with a stable cavity // Kvantovaya Elektronika 1997. — Vol. 24. Issue 5. — P. 428
  • 2 Rosenwaks S., Blayvas I., Barmashenko B.D. etc. Experimental study of a small scale COIL using a jet type generator of singlet oxygen // Proceedings of SPIE - The International Society for Optical Engineering. — 1997. — Vol. 3092. — P. 690-693
  • 3 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Highly efficient supersonic chemical oxygen - Iodine laser with a chlorine flow rate of 10 mmol/s // Kvantovaya Elektronika 1997. — Vol. 24. Issue 3. — P. 205
  • 4 Azyazov V.N., Zagidullin M.V., Nikolaev V.D. etc. Chemical oxygen-iodine laser with mixing of supersonic jets // Quantum Electronics 1997. — Vol. 27. Issue 6. — P. 477-480
  • 5 Azyazov V.N., Zagidullin M.V., Nikolaev V.D. etc. Chemical oxygen-iodine laser with mixing of supersonic jets // Kvantovaya Elektronika 1997. — Vol. 24. Issue 6. — P. 494
  • 6 Špalek O., Kodymová J., Zagidullin M.V. etc. Optimization of jet singlet oxygen generator for chemical oxygen-iodine laser // Proceedings of SPIE - The International Society for Optical Engineering. — 1997. — Vol. 3092. — P. 565-568
  • 7 Zagidullin M.V., Nikolaev V.D. Gain saturation and the efficiency of energy conversion into radiation in a supersonic oxygen-iodine laser with a stable cavity // Quantum Electronics 1997. — Vol. 27. Issue 5. — P. 411-416
  • 8 Zagidullin M.V., Nikolaev V.D., Svistun M.I. etc. Highly efficient supersonic chemical oxygen - Iodine laser with a chlorine flow rate of 10 mmol s-1 // Quantum Electronics 1997. — Vol. 27. Issue 3. — P. 195-199
1996
  • 1 Zagidullin Marselle V., Nikolayev V.D., Svistun Michael I. etc. Buffer gas mixing with active gas on chemical oxygen-iodine laser performance with jet type SOG // Proceedings of SPIE - The International Society for Optical Engineering. — 1996. — Vol. 2702. — P. 310-319
  • 2 Zagidullin Marselle V., Nikolayev V.D., Svistun Michael I. etc. Predicted and measured output parameters of high pressure jet SOG // Proceedings of SPIE - The International Society for Optical Engineering. — 1996. — Vol. 2767. — P. 219-226
  • 3 Blayvas I., Barmashenko B.D., Furman D. etc. Power optimization of small-scale chemical oxygen-iodine laser with jet-type singlet oxygen generator // IEEE Journal of Quantum Electronics 1996. — Vol. 32. Issue 12. — P. 2051-2057
1995
  • 1 Azyazov V.N., Zagidullin M.V., Nikolaev V.D. etc. Oxygen-iodine laser with a drop-jet generator of o2(1∆)operating at pressures up to 90 torr // Quantum Electronics 1995. — Vol. 25. Issue 5. — P. 418-420
  • 2 Zagidullin Marsel Liquid-jet O2(1Delta) generator for chemical oxygen-iodine laser // Proceedings of SPIE - The International Society for Optical Engineering. — 1995. — Vol. 2502. — P. 208-216
1994
  • 1 Zagidullin M.V., Nikolaev V.D., Svistun M.I. Compact oxygen-iodine laser with a thermally insulated jet singlet-oxygen generator // Quantum Electronics 1994. — Vol. 24. Issue 1. — P. 21-22
  • 2 Azyazov V.N., Zagidullin M.V., Nikolaev V.D. etc. Jet o2(1Δ) generator with oxygen pressures up to 13.3 kpa // Quantum Electronics 1994. — Vol. 24. Issue 2. — P. 129-132
  • 3 Azyazov V.N., Zagidullin M.V., Nikolaev Y.D. etc. Transport of high-pressure O2(1∆) // Quantum Electronics 1994. — Vol. 24. Issue 3. — P. 229-232
1989
  • 1 Balan N.F., Gizatullin R.M., Zagidullin M.V. etc. Influence of parameters of an O2 (1△) generator on the operation of a pulsed chemical oxygen-iodine laser // Soviet Physics - Lebedev Institute Reports (English Translation of Sbornik Kratkie Soobshcheniya p 1989. — Issue 4. — P. 28-31
1984
  • 1 Zagidullin M.V., Igoshin V.I., Katulin V.A. etc. ADVANTAGES OF PULSED OPERATION OF A CHEMICAL OXYGEN-IODINE LASER. // Sov J Quantum Electron 1984. — Vol. 14. Issue 1. — P. 139-140
  • 2 Zagidullin M.V., Igoshin V.I., Kupriyanov N.L. KINETICS OF SATURATION OF THE ACTIVE MEDIUM OF AN OXYGEN-IODINE LASER. // Sov J Quantum Electron 1984. — Vol. 14. Issue 7. — P. 930-936
  • 3 Zagidullin M.V., Igoshin V.I., Katulin V.A. etc. ANALYSIS OF OXYGEN-IODINE LASERS WITH DEEP REACTOR COOLING. // 1984. —
  • 4 Zagidullin M.V., Igoshin V.I., Katulin V.A. etc. CROSS-RELAXATION EFFECTS IN LOW-PRESSURE OXYGEN-IODINE LASERS. // 1984. — P. 34
  • 5 Zagidullin M.V., Igoshin V.I., Kupriyanov N.L. INFLUENCE OF TRANSLATIONAL AND HYPERFINE RELAXATION ON THE ENERGY CHARACTERISTICS OF AN OXYGEN-IODINE LASER. // Sov J Quantum Electron 1984. — Vol. 14. Issue 2. — P. 259-261
1983
  • 1 Zagidullin M.V., Igoshin V.I., Katulin V.A. etc. POSSIBILITY OF USING AN ATOMIZER IN A CHEMICAL GENERATOR OF SINGLET OXYGEN FOR AN OXYGEN-IODINE LASER. // Sov J Quantum Electron 1983. — Vol. 13. Issue 4. — P. 494-497
  • 2 Zagidullin M.V., Igoshin V.I., Katulin V.A. etc. POSSIBILITY OF OPERATION OF A CHEMICAL OXYGEN-IODINE LASER WITHOUT A COOLED TRAP. // Sov J Quantum Electron 1983. — Vol. 13. Issue 1. — P. 75-76
1982
  • 1 Vinogradova L.G., Zagidullin M.V., Igoshin V.I. etc. ANALYSIS OF THE ENERGETICS OF A CHEMICAL OXYGEN-IODINE LASER. // Sov J Quantum Electron 1982. — Vol. 12. Issue 6. — P. 752-755
  • 2 Zagidullin M.V., Igoshin V.I., Katulin V.A. etc. NUMERICAL MODELING OF A CHEMICAL OXYGEN-IODINE LASER. // Sov J Quantum Electron 1982. — Vol. 9. Issue 9. — P. 1235-1237

ВАК

2024
  • 1 Дворников А.Д., Загидуллин М.В. Влияние состава Ar-He смеси на генерацию метастабильных атомов аргона в импульсно-периодическом разряде // Физическое образование в ВУЗах. — 2024. — Т. 30. № 1. — С. 23-26
2023
  • 1 Курамшин Р.А., Торбин А.П., Свистун М.И. и др. Методика измерения констант скорости энергообменных процессов в плазме Ar/He // Физическое образование в ВУЗах. — 2023. — Т. 29. № 1. — С. 107-109
  • 2 Курамшин Р.А., Торбин А.П., Свистун Михаил Иванович и др. Измерение констант скорости энергообменных процессов в плазме импульсно-периодического разряда в смеси Ar/He // Краткие сообщения по физике ФИАН. — 2023. — Т. 50. № 6. — С. 3-12
2016
  • 1 Загидуллин М.В., Хватов Н.А, Малышев М.С. и др. Результаты экспериментов по диссоциации молекулярного йода в присутствии молекул синглетного кислорода // Квантовая электроника. — 2016. — Т. 46. № 8. — С. 706-712
2015
  • 1 Загидуллин М.В., Хватов Н.А., Инсапов А.С. Излученеие O2(1?) на длине волны 1.27 мкм, индуцированное столкновениями с молекулами кислорода. // Оптика и спектроскопия. — 2015. — № Т. 118, № 5. — С. 725-728
  • 2 Загидуллин М.В., МАЛЫШЕВ МИХАИЛ СЕРГЕЕВИЧ, АЗЯЗОВ ВАЛЕРИЙ НИКОЛАЕВИЧ Кинетика кислородно-иодной активной среды с оптической накачкой атомов иода на переходе 2P1/2–2P3/2 // Квантовая электроника. — 2015. — № Т. 45, № 8. — С. 720-724
2014
  • 1 ЗАГИДУЛЛИН М.В., Свистун М.И., Хватов Н.А. и др. Столкновительно-индуцированное излучение синглетного кислорода в видимой области спектра в диапазоне температур 90–315 К // Оптика и спектроскопия. — 2014. — № Т. 116, № 4. — С. 581-587
2013
  • 1 ЗАГИДУЛЛИН М.В., Хватов Н.А., Свистун М.И. и др. Кинетика процессов дезактивации энергии в среде O2(1?-I) // Химическая физика. — 2013. — № Т.32. № 6. — С. 3-9
2012
  • 1 ЗАГИДУЛЛИН М.В., Малышев М.С., Хватов Н.А. и др. Кинетика дезактивации энергии в среде О2(1D)-1. // Химическая физика. — 2012. — № т.31 №12. — С. 11-16
2011
  • 1 ЗАГИДУЛЛИН М.В. Константы скорости димольного излучения синглетного кислорода в диапазоне длин волн 634 нм и 703 нм // Химическая физика. — 2011. — № Т. 30, № 2. — С. 1-5
  • 2 ЗАГИДУЛЛИН М.В., Хватов Н.А., Нягашкин А.Ю. Кинетика образования O2(1?) в реакции O2(1?) + O2(1?) ? O2(1?) + O2(3?) // Квантовая электроника. — 2011. — № Т.41. №2. — С. 135-138
  • 3 Загидуллин М. В. The rate constants of singlet oxygen collision-induced emission at 634 and 703 nm wavelengths // Russian Journal of Physical Chemistry B. — 2011. — Т. 5. Вып. 1. — С. 3-7
  • 4 ЗАГИДУЛЛИН М.В., Хватов Н.А., Малышев М.С. Кинетика образования молекул O2(1?) в реакциях с участием возбужденных молекул кислорода O2(1?) и атомов йода I(2P1/2) // Химическая физика. — 2011. — № Т.30, №12. — С. 1-6
2010
  • 1 ЗАГИДУЛЛИН М.В. Неравновесная населенность первого колебательного уровня молекул O2(1?) в потоке газа O2 - O2(1?) - H2O на выходе химического генератора синглетного кислорода // Квантовая электроника. 2010. — 2010. — № Т.40 №9. — С. 794-799
  • 2 ЗАГИДУЛЛИН М.В. Температурная зависимость спектральной ширины димольного излучения синглетного кислорода // Оптика и спектроскопия. — 2010. — № Т.109 №4. — С. 1-2
  • 3 Загидуллин М.В., Хватов Н.А. Kinetics of O2(1D) self-quenching in the О2 – O2(1D) – Н2О gas mixture // Quantum Electronics. — 2010. — № Volume 40, Issue 9. — С. 800-803
  • 4 Загидуллин М.В. Nonequilibrium population of the first vibrational level of O2(1S) molecules in O2 – O2(1D) – H2O gas flow at the output of chemical singlet-oxygen generator // Quantum Electronics. — 2010. — № Volume 40, Issue 9. — С. 794-799

Другие

2023
  • 1 Курамшин Р.А., Торбин А.П., Свистун Михаил Иванович и др. Моделирование кинетики энергообменных процессов в плазме Ar/He // 65-я Всероссийская научная конференция МФТИ в честь 115-летия Л.Д. Ландау. — 2023. — С. 253-254
2022
  • 1 Курамшин Р.А., Торбин А.П., Свистун М.И. и др. ИЗМЕРЕНИЕ КОНСТАНТ СКОРОСТИ ЭНЕРГООБМЕННЫХ ПРОЦЕССОВ В ПЛАЗМЕ AR/HE // XX Всероссийский молодежный Самарский конкурс-конференция научных работ по оптике и лазерной физике, посвященный 100-летию со дня рождения Н.Г. Басова. — 2022. — С. 402-409
2020
  • 1 Толстов Г.И., Медведков Я.А., Порфирьев Д.П. и др. Механизм разрушения фенил-радикала в условиях горения // XVIII Всероссийский молодежный Самарский конкурс-конференция научных работ по оптике и лазерной физике. — 2020. — С. 191-197
  • 2 Толстов Г.И., Медведков Я.А., Порфирьев Д.П. и др. Моделирование полного механизма окисления фенил-радикала в условиях горения // 9th International Symposium on Nonequilibrium Processes, Plasma, Combustion, and Atmospheric Phenomena. — 2020. — С. 36-37
2019
  • 1 Красноухов В.С., Порфирьев Д.П., Загидуллин М.В. и др. Изучение механизма реакции горения инденил и циклопентадиенил радикалов // XI Международная научно-техническая конференция "Процессы горения, теплообмена и экология тепловых двигателей". — 2019. — С. 78-81
2017
  • 1 Толстов Г.И., Загидуллин М.В., Хватов Н.А. и др. Константы скорости убыли O2(b1Ʃg + ) в столкновениях с H2 // XV Всероссийский молодежный Самарский конкурс-конференция научных работ по оптике и лазерной физике. — 2017. — С. 392-397
2014
  • 1 ZAGIDULLIN M.V., MIKhEEV P.A., PERShIN A.A. etc. Fast singlet oxygen quenching effect in O/O2/O3 system // 6 Int. Symp. on Non-equilibrium Processes, Plasma, Combustion, and Atmospheric Phenomena. — 2014. — P. 3-9
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