|
|
|
Publications in Math-Net.Ru |
Citations |
|
2022 |
| 1. |
E. V. Kalashnikov, “Study of a heterophase medium based on a relaxing plasma of a diaphragm discharge in vacuum”, TVT, 60:1 (2022), 11–18   ; High Temperature, 60:1 (2022), 8–14 |
|
2014 |
| 2. |
E. V. Kalashnikov, S. N. Kalashnikova, K. A. Tomeev, “Properties of a surface contaminated by gaseous products of polymer composition materials under vacuum conditions”, Zhurnal Tekhnicheskoi Fiziki, 84:2 (2014), 83–91 ; Tech. Phys., 59:2 (2014), 237–244 |
|
2013 |
| 3. |
E. V. Kalashnikov, O. V. Klyavin, I. G. Titarenko, “Motion of a nitrogen molecule over the screw dislocation core in a body-centered cubic lattice”, Zhurnal Tekhnicheskoi Fiziki, 83:4 (2013), 81–84 ; Tech. Phys., 58:4 (2013), 546–549 |
4
|
|
2012 |
| 4. |
E. V. Kalashnikov, S. N. Kalashnikova, “Methods for estimating the precipitate thickness on the surface of cooled optical elements in vacuum with contamination sources”, Zhurnal Tekhnicheskoi Fiziki, 82:11 (2012), 111–115 ; Tech. Phys., 57:11 (2012), 1574–1578 |
1
|
|
2009 |
| 5. |
E. V. Kalashnikov, S. N. Rachkulik, “Production of high-velocity flows of finely divided particles using a pulsed jet diaphragm discharge in vacuum”, TVT, 47:2 (2009), 299–306 ; High Temperature, 47:2 (2009), 279–286   |
|
2005 |
| 6. |
E. V. Kalashnikov, A. G. Bedrin, S. N. Rachkulik, A. N. Zhilin, V. K. Èl'ts, “VUV Radiation spectra of erosion plasma of a jet of high-current diaphragm discharge in vacuum”, TVT, 43:1 (2005), 32–38 ; High Temperature, 43:1 (2005), 31–37 |
|
2004 |
| 7. |
E. V. Kalashnikov, E. F. Mikhailov, S. N. Rachkulik, “The radiation of highly dispersed structures under conditions of relaxation of the plasma of jets of a diaphragm discharge in vacuum”, TVT, 42:2 (2004), 192–197 ; High Temperature, 42:2 (2004), 183–189 |
1
|
|
2002 |
| 8. |
E. V. Kalashnikov, S. N. Rachkulik, “The Production of Highly Dispersed Structures under Conditions of Efflux and Relaxation of the Plasma of Jets of a Diaphragm Discharge in Vacuum”, TVT, 40:4 (2002), 675–677 ; High Temperature, 40:4 (2002), 626–628 |
|
2000 |
| 9. |
E. V. Kalashnikov, T. G. Kostitsyna, “The thermodynamic properties of erosion plasma produced by diaphragm discharge in jets in vacuum”, TVT, 38:2 (2000), 194–199 ; High Temperature, 38:2 (2000), 176–181 |
1
|
|
1996 |
| 10. |
E. V. Kalashnikov, “The radial distribution of pressure in the plasma jet of high-current diaphragm discharge in vacuum”, TVT, 34:4 (1996), 501–505 ; High Temperature, 34:4 (1996), 495–499 |
1
|
|
1995 |
| 11. |
M. F. Danilov, E. V. Kalashnikov, “The composition of the shell of plasma jet of diaphragm discharge in vacuum”, TVT, 33:5 (1995), 663–668 ; High Temperature, 33:5 (1995), 657–662 |
1
|
| 12. |
E. V. Kalashnikov, “Emission and conductivity of a plasma jet of a diaphragm discharge in vacuum”, TVT, 33:3 (1995), 339–345 ; High Temperature, 33:3 (1995), 339–345 |
|
1986 |
| 13. |
E. V. Kalachnikov, I. S. Mironov, L. A. Pavlova, I. V. Podmoshenskiĭ, P. N. Rogovtsev, “Radiation dynamics of a high-current magnetically compressed discharge”, TVT, 24:5 (1986), 837–843 ; High Temperature, 24:5 (1986), 626–631 |
1
|
|
1985 |
| 14. |
E. V. Kalachnikov, I. S. Mironov, P. N. Rogovtsev, “Effect of shock-waves and the erosion sheath on the emissive properties of a high-current $H$-compressed discharge”, TVT, 23:2 (1985), 253–261 ; High Temperature, 23:2 (1985), 202–209 |
|
| Organisations |
|
|
