Gaisin Almaz Fivzatovich

Publications in Math-Net.Ru

1. Моделирование электрофизических процессов в системе электролит–металлический электрод
   
   TVT, 63:1 (2025),  11–15
2. Электрические разряды в электролитно-пузырьковой среде раствора сульфата аммония в водопроводной воде при атмосферном давлении
   
   TVT, 62:3 (2024),  474–476
3. Conducting fundamental scientific research and exploratory scientific research
   
   Zhurnal Tekhnicheskoi Fiziki, 93:3 (2023),  356–364
4. Electrophysical and thermal processes under discharge burning conditions with a liquid (nonmetallic) cathode
   
   TVT, 61:4 (2023),  484–491
5. Breakdown mechanism of a high-frequency discharge with jet electrolytic electrodes
   
   Pisma v Zhurnal Tekhnicheskoi Fiziki, 48:17 (2022),  24–27
6. Direct-current discharge between a metal anode and a liquid nonmetallic cathode
   
   Prikl. Mekh. Tekh. Fiz., 63:5 (2022),  20–32
7. AC electric discharge in a $1\%$ sodium chloride solution in distilled water at low pressures
   
   TVT, 60:4 (2022),  625–628
8. AC electric discharges in a gas–liquid medium of a sodium chloride solution at atmospheric pressure
   
   TVT, 59:4 (2021),  634–637
9. Some features of dielectric barrier discharge with liquid and solid electrodes
   
   TVT, 57:6 (2019),  953–956
10. Discharge between liquid jet and metallic electrodes
    
    Zhurnal Tekhnicheskoi Fiziki, 88:5 (2018),  717–721
11. Investigation of physical processes in the gas discharge region between liquid electrodes
    
    Prikl. Mekh. Tekh. Fiz., 59:4 (2018),  19–22
12. Thermograms of high-frequency capacitive discharge between solid and liquid electrodes
    
    TVT, 56:5 (2018),  838–840
13. Characteristics of the development of electric discharge between jet anode and liquid cathode
    
    TVT, 56:2 (2018),  306–309
14. Spectral diagnostics of plasma discharge between a metal cathode and liquid anode
    
    TVT, 55:3 (2017),  472–475
15. 2D numerical simulation of volume discharge with liquid anode
    
    TVT, 55:1 (2017),  141–142
16. Some pecularities of electric discharge between a solid electrode and technical water
    
    TVT, 54:1 (2016),  29–31
17. Model of glow discharge betweenan an electrolytic anode and a metallic cathode
    
    TVT, 53:2 (2015),  193–197
18. Pecularities of transition of a low-current microwave capacitive discharge with an electrolitic electrode in a high-current discharge
    
    TVT, 53:1 (2015),  18–22
19. Pecluraties of microwave discharge between a copper pin electrode and technical water
    
    TVT, 52:6 (2014),  961–964
20. Electrical Discharges with Liquid Electrodes Used in Water Decontamination
    
    TVT, 52:4 (2014),  512–519
21. Some particularities of development of high frequency capacitive discharge between a drop-jet electrolytic electrode and a flow-type electolytic cell
    
    TVT, 51:6 (2013),  945–948
22. Certain Features of Multichannel Discharge in a Tube under Atmospheric Pressure
    
    TVT, 49:5 (2011),  788–792
23. Multichannel Discharge Between Jet Electrolyte Cathode and Solid Anode
    
    TVT, 49:4 (2011),  634–638
24. Multichannel Discharge Between Jet Electrolyte Cathode and Jet Electrolyte Anode
    
    TVT, 49:3 (2011),  333–337
25. Electric breakdown along a jet electrolytic cathode at low pressures
    
    TVT, 48:5 (2010),  785–787
26. Vapor-air discharges between Jet electrolytic cathode and metal anode at low pressure
    
    TVT, 48:3 (2010),  470–472
27. Special features of a multichannel discharge in a porous solid cathode
    
    TVT, 47:4 (2009),  633–634
28. An unsteady multichannel discharge between a jet of electrolyte and a metal electrode at atmospheric pressure
    
    TVT, 44:5 (2006),  796–797
29. A multichannel discharge between a stream electrolytic cathode and a metal anode at atmospheric pressure
    
    TVT, 44:3 (2006),  343–348


30. Erratum: “Electrical discharges with liquid electrodes used in water decontamination” [High Temperature 52, 490 (2014)]
    
    TVT, 53:3 (2015),  458