|
|
Publications in Math-Net.Ru |
Citations |
|
2023 |
1. |
P. V. Bulat, K. N. Volkov, L. P. Grachev, I. I. Esakov, V. L. Bychkov, “Влияние пучка ускоренных электронов и внешнего электрического поля на горение пропан-воздушной смеси в дозвуковом потоке воздуха”, TVT, 61:6 (2023), 904–913 |
|
2022 |
2. |
P. V. Bulat, K. N. Volkov, L. P. Grachev, I. I. Esakov, P. B. Lavrov, “Ignition of a fuel mixture with a spark and initiated streamer discharge under various conditions”, TVT, 60:4 (2022), 548–556 ; High Temperature, 60:4 (2022), 497–504 |
|
2021 |
3. |
V. L. Bychkov, L. P. Grachev, I. I. Esakov, A. V. Semenov, “Propagation of a single pressure wave over the discharge region of the microwave range of wavelengths in air at medium pressures”, Zhurnal Tekhnicheskoi Fiziki, 91:11 (2021), 1641–1644 |
4. |
P. V. Bulat, K. N. Volkov, L. P. Grachev, I. I. Esakov, P. B. Lavrov, “Ignition of a fuel mixture using a multipoint pulsed spark discharge under various initial conditions”, Zhurnal Tekhnicheskoi Fiziki, 91:9 (2021), 1339–1347 ; Tech. Phys., 66:11 (2021), 1177–1185 |
3
|
5. |
P. V. Bulat, K. N. Volkov, L. P. Grachev, I. I. Esakov, P. B. Lavrov, N. Prodan, P. S. Chernyshov, “Comparison of the energy efficiency of ignition of a fuel mixture by spark and streamer discharges”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 47:15 (2021), 51–54 ; Tech. Phys. Lett., 47:10 (2021), 749–752 |
2
|
|
2020 |
6. |
V. L. Bychkov, L. P. Grachev, I. I. Esakov, A. V. Semenov, “Base drag reduction and generation of the lifting force using a microwave discharge in a supersonic flow”, Zhurnal Tekhnicheskoi Fiziki, 90:8 (2020), 1283–1288 ; Tech. Phys., 65:8 (2020), 1233–1238 |
7. |
P. V. Bulat, L. P. Grachev, I. I. Esakov, A. A. Ravaev, L. G. Severinov, “Erratum to: Combustion Dynamics of a Propane–Air Gas Mixture When it is Ignited by a Streamer Microwave Discharge”, Tech. Phys., 65:1 (2020), 161 |
|
2019 |
8. |
P. V. Bulat, L. P. Grachev, I. I. Esakov, A. A. Ravaev, L. G. Severinov, “Combustion dynamics of a propane–air gas mixture when it is ignited by a streamer microwave discharge”, Zhurnal Tekhnicheskoi Fiziki, 89:10 (2019), 1529–1534 ; Tech. Phys., 64:10 (2019), 1446–1451 |
1
|
9. |
P. V. Bulat, L. P. Grachev, I. I. Esakov, A. A. Ravaev, L. G. Severinov, “Microwave air breakdown initiated by the electromagnetic vibrator placed on a dielectric surface”, Zhurnal Tekhnicheskoi Fiziki, 89:7 (2019), 1016–1020 ; Tech. Phys., 64:7 (2019), 957–961 |
3
|
10. |
P. V. Bulat, L. P. Grachev, I. I. Esakov, A. A. Ravaev, “Threshold field that separates domains of subcritical and deeply subcritical microwave discharges ignited on a dielectric surface”, Zhurnal Tekhnicheskoi Fiziki, 89:1 (2019), 64–68 ; Tech. Phys., 64:1 (2019), 56–60 |
|
2018 |
11. |
K. V. Aleksandrov, N. I. Busleev, L. P. Grachev, I. I. Esakov, A. A. Ravaev, “Gas electric discharge with a developed streamer structure in a quasi-optical microwave beam”, Zhurnal Tekhnicheskoi Fiziki, 88:10 (2018), 1515–1519 ; Tech. Phys., 63:10 (2018), 1468–1472 |
1
|
12. |
L. P. Grachev, I. I. Esakov, A. A. Ravaev, L. G. Severinov, “Initiation of gas electrical breakdown in the field of a microwave traveling over the metal surface”, Zhurnal Tekhnicheskoi Fiziki, 88:7 (2018), 1000–1003 ; Tech. Phys., 63:7 (2018), 970–973 |
13. |
K. V. Aleksandrov, N. I. Busleev, L. P. Grachev, I. I. Esakov, A. A. Ravaev, “Multipoint ignition of a gas mixture by a microwave subcritical discharge with an extended streamer structure”, Zhurnal Tekhnicheskoi Fiziki, 88:2 (2018), 174–179 ; Tech. Phys., 63:2 (2018), 167–171 |
2
|
|
2017 |
14. |
N. I. Busleev, V. L. Bychkov, L. P. Grachev, I. I. Esakov, A. A. Ravaev, “Detachment of electrons from atmospheric oxygen molecules in a high electric field”, Zhurnal Tekhnicheskoi Fiziki, 87:9 (2017), 1322–1326 ; Tech. Phys., 62:9 (2017), 1332–1336 |
1
|
15. |
K. V. Aleksandrov, L. P. Grachev, I. I. Esakov, A. A. Ravaev, L. G. Severinov, “Effective area of energy interactions between the plasma of a deeply subcritical microwave discharge and its initiating electromagnetic field”, Zhurnal Tekhnicheskoi Fiziki, 87:5 (2017), 696–699 ; Tech. Phys., 62:5 (2017), 716–719 |
|
2016 |
16. |
K. V. Aleksandrov, L. P. Grachev, I. I. Esakov, A. A. Ravaev, L. G. Severinov, A. Yu. Yakovlev, “Electric discharge in air in a deeply subcritical field of a quasi-optical microwave beam”, Zhurnal Tekhnicheskoi Fiziki, 86:4 (2016), 28–33 ; Tech. Phys., 61:4 (2016), 505–510 |
3
|
|
1985 |
17. |
G. I. Mishin, L. P. Grachev, I. I. Esakov, M. Yu. Nikitin, K. V. Khodataev, “INTERACTION OF SHOCK-WAVES WITH THE DECAYING PLASMA OF NONELECTRODE UHF
DISCHARGES”, Zhurnal Tekhnicheskoi Fiziki, 55:5 (1985), 972–975 |
18. |
G. I. Mishin, L. P. Grachev, I. I. Esakov, M. Yu. Nikitin, K. V. Khodataev, “NON-ELECTRODE DISCHARGE IN THE AIR AT MEDIUM PRESSURES”, Zhurnal Tekhnicheskoi Fiziki, 55:2 (1985), 389–391 |
|
1984 |
19. |
L. P. Grachev, I. I. Esakov, M. P. Knyazev, G. I. Mishin, B. A. Sharai, “PROBABILITY OF PULSED ELECTRODELESS UHF OF ATMOSPHERIC BREAKDOWN IN
NON-HOMOGENEOUS FIELDS AT NATURAL LEVELS OF INITIAL IONIZATION”, Zhurnal Tekhnicheskoi Fiziki, 54:7 (1984), 1353–1355 |
|
Organisations |
|
|
|
|