Nonequilibrium kinetics of plasma
Active and passive methods of plasma diagnostics
Plasma chemistry
UDC:
533.6.011.8
Subject:
Plasma diagnostics
The application of coatings using plasma-chemical technologies
Modeling the kinetics of processes in chemically reacting gases in plasma
Main publications:
K. V. Artem’ev, G. M. Batanov, N. K. Berezhetskaya, V. D. Borzosekov, S. I. Gritsinin, A. M. Davydov, L. V. Kolik, E. M. Konchekov, I. A. Kossyi, Yu. A. Lebedev, I. V. Moryakov, A. E. Petrov, K. A. Sarksyan, V. D. Stepakhin, N. K. Kharchev, and V. A. Shakhatov, “Synthesis of Nitrogen Oxides in a Subthreshold Microwave Discharge in Air and in Air Mixtures with Methane”, DOI: 10.1134/S1063780X20030010, Plasma Physics Reports, 46:3 (2020), 311-320
S. I. Inshakov, V. V. Skvotsov, V. A. Shakhatov, E. D. Kudryavtseva, A. A. Uspenskii, “Distribution of the rotational temperature of $\rm C_2$ molecules in high-temperature regions in a supersonic airflow under injecting ethylene, propane, and oxygen in the discharge area”, TVT, 60:2 (2022), 172–183; High Temperature, 60:2 (2022), 148–158
S. I. Inshakov, V. V. Skvotsov, A. F. Rozhkov, V. A. Shakhatov, I. S. Inshakov, A. A. Uspenskii, A. Yu. Urusov, “Spectroscopic studies of longitudinal discharges in a supersonic air flow during the injection of propane, ethylene, and oxygen into the discharge zone”, TVT, 57:6 (2019), 835–845; High Temperature, 57:6 (2019), 798–807
Yu. A. Lebedev, V. A. Shakhatov, “On the mechanism of the population of the $\mathrm{H}_2(d^3\Pi_u)$ state in nonequilibrium hydrogen plasma”, TVT, 57:4 (2019), 496–500; High Temperature, 57:3 (2019), 458–461
2017
4.
V. A. Shakhatov, Yu. A. Lebedev, “On the applicability of the optical emission of triplet states of hydrogen molecules for the diagnostics of non-equilibrium microwave hydrogen discharge”, High Temperature, 55:4 (2017), 496–501
N. Bonifaci, V. M. Atrazhev, V. A. Shakhatov, R. E. Boltnev, K. von Haeften, J. Eloranta, “Nonmonotonous distribution of population of the $a^3\Sigma^+_g$ triplet state rotational levels in corona discharge in cryogenic helium gas”, TVT, 55:3 (2017), 337–344; High Temperature, 55:3 (2017), 326–333
V. M. Atrazhev, V. A. Shakhatov, R. E. Boltnev, N. Bonifaci, F. Aitken, J. Eloranta, “Spectra, line intensities of the $C^1\Sigma_g^+ \rightarrow A^1\Sigma_u^+$ and the $c^3\Sigma_g^+ \rightarrow\,a^3\Sigma_u^+$ transitions in liquid normal $\rm He$, and rotational level populations of the $C^1\Sigma_u^+$ and the $c^3\Sigma_u^+$ terms”, TVT, 55:2 (2017), 169–178; High Temperature, 55:2 (2017), 165–173
V. A. Shakhatov, Yu. A. Lebedev, A. Lacoste, S. Bechu, “Emissive spectroscopy of a dipolar plasma source in hydrogen under low pressures”, TVT, 54:4 (2016), 491–499; High Temperature, 54:4 (2016), 467–474
V. A. Shakhatov, Yu. A. Lebedev, A. Lacoste, S. Bechu, “Kinetics of electron states of hydrogen molecules in nonequilibrium discharges: Singlet states”, TVT, 54:1 (2016), 120–140; High Temperature, 54:1 (2016), 123–142
V. A. Shakhatov, Yu. A. Lebedev, A. Lacoste, S. Bechu, “Excitation kinetics of electronic states of hydrogen molecules in nonequilibrium discharges. Electronic ground state”, TVT, 53:4 (2015), 601–622; High Temperature, 53:4 (2015), 569–587
Yu. A. Lebedev, I. L. Epshtein, V. A. Shakhatov, E. V. Yusupova, V. S. Konstantinov, “Spectroscopy of Microwave Discharge in Liquid C7–C16 Hydrocarbons”, High Temperature, 52:3 (2014), 319–327
V. A. Shakhatov, T. B. Mavlyudov, Yu. A. Lebedev, “Studies of the distribution functions of molecular nitrogen and its ion over the vibrational and rotational levels in the dc glow discharge and the microwave discharge in a nitrogen-hydrogen mixture by the emission spectroscopy technique”, TVT, 51:4 (2013), 612–628; High Temperature, 51:4 (2013), 551–565
V. A. Shakhatov, Yu. A. Lebedev, “Radiation spectroscopy in the study of the influence of a helium-nitrogen mixture composition on parameters of DC glow discharge and microwave discharge”, TVT, 50:5 (2012), 705–730; High Temperature, 50:5 (2012), 658–681
V. A. Shakhatov, Yu. A. Lebedev, “Collisional–Radiative Model of Hydrogen Low-Temperature Plasma: Processes and Cross Sections of Electron–Molecule Collisions”, TVT, 49:2 (2011), 265–309; High Temperature, 49:2 (2011), 257–302
Yu. A. Lebedev, T. B. Mavlyudov, V. A. Shakhatov, I. L. Epshtein, “Nonuniform microwave discharge in a nitrogen-hydrogen mixture”, TVT, 48:3 (2010), 333–339; High Temperature, 48:3 (2010), 315–320
Yu. A. Lebedev, V. A. Shakhatov, “The parameters of nonequilibrium microwave discharge in nitrogen in a tube in a rectangular waveguide”, TVT, 44:6 (2006), 805–813; High Temperature, 44:6 (2006), 795–803
V. A. Shakhatov, O. A. Gordeev, “CARS spectroscopy and optical interferometry of glow discharge plasma in nitrogen”, TVT, 44:2 (2006), 212–220; High Temperature, 44:2 (2006), 206–215
V. A. Shakhatov, O. A. Gordeev, “Investigation of nonequilibrium rf-discharge plasma in nitrogen using the method of wide-band CARS spectroscopy”, TVT, 44:1 (2006), 16–24; High Temperature, 44:1 (2006), 12–21
K. A. Vereshchagin, W. Clauss, D. N. Kozlov, D. Yu. Panasenko, V. V. Smirnov, O. M. Stel'makh, V. I. Fabelinskyĭ, V. A. Shakhatov, “Two-wavelength CARS thermometry based on <i>S</i>-branch rotational transitions in the hydrogen molecule”, Kvantovaya Elektronika, 24:11 (1997), 1049–1053 [Quantum Electron., 27:11 (1997), 1019–1023]
A. V. Bodronosov, K. A. Vereshchagin, O. A. Gordeev, V. V. Smirnov, V. A. Shakhatov, “The possibility of local nonperturbing diagnostics of the electron component in a glow discharge plasma in nitrogen by CARS spectroscopy”, TVT, 34:5 (1996), 666–675; High Temperature, 34:5 (1996), 656–665
A. V. Bodronosov, K. A. Vereshchagin, V. A. Gorshkov, V. V. Smirnov, K. V. Khodataev, V. A. Shakhatov, “Fast two-wavelength CARS thermometry of gas discharges”, Kvantovaya Elektronika, 21:9 (1994), 891–894 [Quantum Electron., 24:9 (1994), 832–835]
V. I. Alfyorov, A. P. Rudakova, V. A. Shakhatov, V. S. Shchelin, “Mathemacial modelling of the structure of hypersonic shock layer around models in a wind tunnel”, Matem. Mod., 1:9 (1989), 34–42
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