|
|
Publications in Math-Net.Ru |
Citations |
|
2024 |
1. |
Электрические разряды в электролитно-пузырьковой среде раствора сульфата аммония в водопроводной воде при атмосферном давлении
TVT, Forthcoming paper |
|
2022 |
2. |
A. A. Khafizov, R. I. Valiev, L. N. Bagautdinova, Az. F. Gaisin, Al. F. Gaisin, F. M. Gaisin, E. E. Son, I. T. Fakhrutdinova, “AC electric discharge in a $1\%$ sodium chloride solution in distilled water at low pressures”, TVT, 60:4 (2022), 625–628 ; High Temperature, 60:4 (2022), 570–573 |
1
|
|
2021 |
3. |
R. I. Valiev, A. A. Khafizov, L. N. Bagautdinova, F. M. Gaisin, R. Sh. Basyrov, Az. F. Gaisin, Al. F. Gaisin, “AC electric discharges in a gas–liquid medium of a sodium chloride solution at atmospheric pressure”, TVT, 59:4 (2021), 634–637 ; High Temperature, 60:1, Suppl. 1 (2022), S127–S130 |
6
|
|
2020 |
4. |
Az. F. Gaisin, R. Sh. Sadriev, L. N. Bagautdinova, R. T. Nasibullin, F. M. Gaisin, Sh. Ch. Mastyukov, “Low-power electric discharges with metallic, dielectric, and electrolytic electrodes at low frequencies and atmospheric pressure”, TVT, 58:6 (2020), 860–864 ; High Temperature, 58:6 (2020), 777–780 |
9
|
5. |
L. N. Bagautdinova, R. Sh. Sadriev, Az. F. Gaisin, R. T. Nasibullin, F. M. Gaisin, I. M. Galeev, Sh. Ch. Mastyukov, “Features of a low-power, low-frequency, AC arc between solid and liquid electrodes”, TVT, 58:3 (2020), 465–468 ; High Temperature, 58:3 (2020), 441–443 |
5
|
|
2019 |
6. |
L. N. Bagautdinova, R. Sh. Sadriev, Az. F. Gaisin, Sh. Ch. Mastyukov, F. M. Gaisin, I. T. Fakhrutdinova, M. A. Leushka, Al. F. Gaisin, “Some features of dielectric barrier discharge with liquid and solid electrodes”, TVT, 57:6 (2019), 953–956 ; High Temperature, 57:6 (2019), 944–947 |
9
|
|
2018 |
7. |
Az. F. Gaisin, L. N. Bagautdinova, Al. F. Gaisin, R. Sh. Sadriev, F. M. Gaisin, I. I. Galimzjanov, A. Kh. Gil'mutdinov, E. F. Shakirova, “Thermograms of high-frequency capacitive discharge between solid and liquid electrodes”, TVT, 56:5 (2018), 838–840 ; High Temperature, 56:5 (2018), 821–823 |
6
|
|
2017 |
8. |
I. T. Fakhrutdinova, Az. F. Gaisin, É. E. Son, I. I. Galimzyanov, F. M. Gaisin, D. N. Mirkhanov, “Peculiarities of electric discharge between jet anode and metal cathode”, TVT, 55:6 (2017), 775–777 ; High Temperature, 55:6 (2017), 935–937 |
3
|
9. |
R. Sh. Sadriev, É. E. Son, L. N. Bagautdinova, Az. F. Gaisin, F. M. Gaisin, “The experimental study of an impulse electric discharge with liquid electrodes”, TVT, 55:2 (2017), 317–319 ; High Temperature, 55:2 (2017), 310–311 |
5
|
|
2016 |
10. |
É. E. Son, Al. F. Gaisin, M. A. Leushka, Az. F. Gaisin, R. Sh. Sadriev, F. M. Gaisin, “Some pecularities of electric discharge between a solid electrode and technical water”, TVT, 54:1 (2016), 29–31 ; High Temperature, 54:1 (2016), 25–27 |
6
|
|
2014 |
11. |
É. E. Son, R. Sh. Sadriev, Al. F. Gaisin, L. N. Bagautdinova, F. M. Gaisin, E. F. Shakirova, M. F. Akhatov, Az. F. Gaisin, R. R. Kayumov, “Pecluraties of microwave discharge between a copper pin electrode and technical water”, TVT, 52:6 (2014), 961–964 ; High Temperature, 52:6 (2014), 939–941 |
10
|
|
2011 |
12. |
G. T. Samitova, Al. F. Gaisin, T. B. Mustafin, Az. F. Gaisin, É. E. Son, D. A. Vesel'ev, F. M. Gaisin, “Certain Features of Multichannel Discharge in a Tube under Atmospheric Pressure”, TVT, 49:5 (2011), 788–792 ; High Temperature, 49:5 (2011), 762–765 |
4
|
|
2009 |
13. |
N. A. Loginov, Az. F. Gaisin, É. E. Son, F. M. Gaisin, Al. F. Gaisin, “Special features of a multichannel discharge in a porous solid cathode”, TVT, 47:4 (2009), 633–634 ; High Temperature, 47:4 (2009), 603–605 |
10
|
|
2007 |
14. |
A. F. Gaisin, É. E. Son, “Special features of a multichannel discharge with solid and electrolytic electrodes at atmospheric pressure”, TVT, 45:2 (2007), 316–317 ; High Temperature, 45:2 (2007), 280–281 |
4
|
|
2005 |
15. |
A. F. Gaisin, Kh. K. Tazmeev, “A Vapor-Air Discharge with a Porous Electrolytic Cathode at Atmospheric Pressure”, TVT, 43:6 (2005), 813–819 ; High Temperature, 43:6 (2005), 810–816 |
10
|
16. |
A. F. Gaisin, “A Vapor-Air Discharge between Electrolytic Anode and Metal Cathode at Atmospheric Pressure”, TVT, 43:5 (2005), 684–690 ; High Temperature, 43:5 (2005), 680–687 |
18
|
17. |
A. F. Gaisin, É. E. Son, “Vapor-air discharges between electrolytic cathode and metal anode at atmospheric pressure”, TVT, 43:1 (2005), 5–10 ; High Temperature, 43:1 (2005), 1–7 |
30
|
|
Organisations |
|
|
|
|