Publications

publications

|1975-1992|1995-2005|2006-2015|2016-2020|2021|2022|2023|Inv. ReviewInv. PapersBooks

1975-1992

  1. I. Z. Gleizer, A. N. Didenko, A. G. Zerlitsyn, Ya. E. Krasik, Yu. P. Usov, and V. I. Tsvetkov, Hollow relativistic electron beam in a coaxial gun with magnetic insulation, Sov. Tech. Phys. Lett. 1, 214 (1975).
  2. A. N. Didenko, Ya. E. Krasik, A. V. Petrov, A. I. Ryabchikov, V. A. Tusov, and Yu. P. Usov, Transport of high current relativistic electron beam in a transverse magnetic field, Sov. J. Plasma Phys. 3, 624 (1977).
  3. V. M. Bystritskii, A. N. Didenko, Ya. E. Krasik, V. S. Lopatin, and V. I. Podkatov, Collective proton acceleration in a system with an insulated anode, Sov. J. Tech. Phys. Lett. 4, 219 (1978).
  4. A. N. Didenko, Ya. E. Krasik, S. F. Pereligin, G. P. Fomenko, Generation of intense microwave radiation by a relativistic electron beam in a triode, Sov. J. Tech. Phys. Lett. 5, 128 (1979).
  5. V. M. Bystritskii, A. N. Didenko, Ya. E. Krasik, V. S. Lopatin, V. I. Podkatov, Collective ion acceleration in the vacuum system with insulated anode, IEEE Trans.on Nuclear Sci. NS 26, 4248 (1979).
  6. V. M. Bystritskii, Ya. E. Krasik, V. I. Podkatov, Production of high power ion beam in a reflex triode, Sov. J. Tech. Phys. 49, 1352 (1979).
  7. V. M. Bystritskii, Ya. E. Krasik, Generation of high current ion beams in a reflex triode, Sov. J. Plasma Phys. 6, 227 (1980).
  8. A. N. Didenko, V. M. Bystritskii, A. N. Kozevnikov, Ya. E. Krasik, S. S. Sulakshin, Effective laser with high power ion beam pumping, Kvantovaya Electronika 7, 2006 (1980).
  9. V. M. Bystritskii, Ya. E. Krasik, V. S. Lopatin, V. I. Podkatov, Investigation of the collective ion acceleration in the diode with the insulated anode, Izves. VUZov USSR, Physics 12, 174 (1980).
  10. V. M. Bystritskii, Ya. E. Krasik, Generation of high power ion beam generation in the triode and tetrode systems, Izves. VUZov USSR, Physics 11, 31 (1980).
  11. A. N. Didenko,V. M. Bystritskii, Ya. E. Krasik, V. M. Matvienko, V. G. Tolmacheva, and A. M. Tolopa, Generation of high power ion beam in ballistic focusing diode, IEEE Trans.on Nuclear Sci., NS 28, 3436 (1981).
  12. A. I. Arbuzov, V. M. Bystritskii, and Ya. E. Krasik, Stationary model of an assymetric triode, Izves. VUZov USSR, Physics 5, 87 (1981).
  13. V. M. Bystritskii, Ya. E. Krasik, V. M. Matvienko, V. G. Tolmacheva, and A. M. Tolopa, Coaxial magnetically insulated diode with an azimuthal magnetic field, Sov. J. Plasma Phys. 8, 513 (1982).
  14. D. R. Akerman, S. N. Volkov, Ya. E. Krasik, A. V. Petrov, V. G. Tolmacheva and A. M. Tolopa, Nanosecond accelerator for generation ion and electron beams, Prib. Tekh.Eksp. 4, 34 (1983).
  15. V. M. Bystritskii, Ya. E. Krasik, and S. S. Sulakshin, Production of intense ion beams in reflex systems with reusable anodes, Sov. J. Plasma Phys. 10, 151 (1984).
  16. A. N. Didenko, S. N. Volkov, Ya. E. Krasik, and A. I. Rybchikov, Intense ion beam generation with pre-acceleration, Sov. Phys. Tech. Phys. 29, 482 (1984).
  17. V. M. Bystritskii, A. N. Didenko, Ya. E. Krasik, and V. M. Matvienko, Production of an intense ribbon shaped ion beam in a magnetically insulated diode, Sov. J. Plasma Phys. 11, 602 (1985).
  18. V. M. Bystritskii, A. A. Verigin, S. N. Volkov, Ya. E. Krasik, and V. I. Podkatov, Production of intense ion beams in a reflex triode with external plasma source at the anode, Sov. J. Plasma Phys. 12, 642 (1986).
  19. G. A. Mesyats, A. N.Didenko, E. N. Abdullin, V. M. Bystritskii, A. A. Kim, B. M. Koval’chuk, V. A. Kokshenev, Ya. E. Krasik, and A. A. Sinebryukhov, Production of intense ion beams in an accelerator with inductive microsecond storage and plasma erosion interrupter, Sov. Phys. Dokl. 31, 557 (1986).
  20. V. M. Bystritskii, S. N. Volkov, and Ya. E. Krasik, Formation of negative H- beams in a reflex systems, Sov. J. Plasma Phys. 12, 758 (1986).
  21. V. M. Bystritskii, A. N. Didenko, S. N. Volkov, I. B. Ivanov, Ya. E. Krasik, and A. V. Petrov, Polarity effect in a coaxial plasma erosion switch, Sov. J. Plasma Phys. 12, 679 (1986).
  22. V. M. Bystritskii, A. N. Didenko, Ya. E. Krasik, and V. M. Matvienko, Generation of the homogeneous large cross section ion beam beam in a magnetically insulated diode, Nucl. Instr. Meth. Phys.Res. B17, 182 (1986).
  23. E. N. Abdullin, G. P. Bazenov, A. A. Kim, B. M. Koval’chuk, V. A. Kokshenev, Ya. E. Krasik, V. M. Matvienko, A. A. Sinebryukhov, and V. G. Tolmacheva, Production of intense short pulse ion beams in a system with microsecond inductive storage and a plasma opening switch, Sov. J. Plasma Phys. 13, 589 (1987).
  24. V. M. Bystritskii, Ya. E. Krasik, and V. M. Matvienko, Creating of ribbon ion beam with large cross section in the diode with magnetic insulation, Sov.Tech.Phys. 32, 279 (1987).
  25. Ya. E. Krasik, V. M. Matvienko, and A. A. Sinebruchov, Measurements of pulse voltage in high current diode by means of germanium sensors, Prib. Tekh. Eksp. 2, 115 (1987).
  26. V. M. Bystritskii, S. N. Volkov, Ya. E. Krasik, V. I. Podkatov, N. N. Rizhakin, and N. A. Salomasov, Transport of a “hot” intense ion beam in a uniform longitudinal magnetic field, Sov. J. Plasma Phys. 13, 416 (1987).
  27. V. M. Bystritskii, I. B. Ivanov, Ya. E. Krasik, A. V. Petrov, V. G. Tolmavheva, and E. G. Furman, Study of operation of high current nanosecond accelerator with induction section, Prib. Tekh.Eksp. 5, 19 (1987).
  28. V. M. Bystritskii, S. N. Volkov, Ya. E. Krasik, V. M. Matvienko, and V. G. Tolmacheva, Investigation of H- production in a pulsed power diode at 10 GW power, Nucl. Instr. Meth. Phys. Res. B28, 131 (1987).
  29. V. M. Bystritskii, Ya. E. Krasik, and A. A. Sinebruchov, Computer simulation of high power ion beam generation using the plasma opening switch and microsecond energy storage system, IEEE Trans.on Plasma Sci. 15, 678 (1987).
  30. A. I. Arbuzov, V. M. Bystritskii, Ya. E. Krasik, V. I. Podkatov, and A. A. Sinebruchov, The application of a plasma erosion switch to a nanosecond generator at power level of 10 GW, IEEE Trans. on Plasma Sci. 15, 674 (1987).
  31. V. M. Bystritskii, Ya. E. Krasik, I. B. Ivanov, N. N. Rishakin, A. A. Sinebryukhov, and V. G. Tolmacheva, Relationship between the polarity effect and the parameters of a coaxial plasma erosion switch, Sov. J. Plasma Phys. 14, 37 (1988).
  32. V. M. Bystritskii, S. N. Volkov, Ya.E.Krasik, L. A. Logutova, V. I. Podkatov, V. G. Tolmacheva, and V. V. Zigankov, Production of an intense ion beam in a magnetically insulated diode with a Br-field, Sov. J. Plasma Phys. 14, 262 (1988).
  33. V. I. Boiko, S. N. Volkov, Ya. E. Krasik, and I. V. Shamanin, Acoustic pickup for determination of current density of high power ion beam, Prib. Tekh. Eksp. 2, 152 (1989).
  34. A. X. Amirov, P. S. Anan’in, V. M. Bystritskii, I. B. Ivanov, Ya. E. Krasik, V. A. Skvorzov, and V. G. Tolmacheva, Generator of high power submicrosend ion and electron beams, Prib.Tekh.Eksp. 1, 39 (1989).
  35. V. M. Bystritskii, V. I. Boiko, S. N. Volkov, Ya. E. Krasik, and I. B. Shamanin, Generation and focusing of high power ion beam in a magnetically insulated diode, Sov. J. Plasma Phys. 15, 777 (1989).
  36. P. S. Anan’in, S. P. Bugaev, V. M. Bystritskii, I. V. Ivanov, V. B. Karpov, Ya. E. Krasik, B. M. Koval’chuk, A. N. Novikov, A. V. Petrov, N. N. Rishakin, V. G. Tolmacheva, and A. E. Ch’e, High power microsecond voltage pulse generator, Prib. Tekh. Eksp. 5, 149 (1989).
  37. P. S. Anan’in, V. B. Karpov, Ya. E. Krasik, and E. A. Paul, Generation of an intense ion beam in a magnetically insulated diode in a circuit with an inductive store and a plasma-erosion opening switch, Sov. J. Tech. Phys. 60, 256 (1990).
  38. V. M. Bystritskii, Ya. E. Krasik, I. V. Lisitsin, and A. A. Sinebryukhov, Dynamics of current transfer in the conduction phase of a microsecond plasma opening switch, Sov. J. Plasma Phys. 17, 34 (1991).
  39. P. S. Anan’in, V. B. Karpov, Ya. E. Krasik, I. V. Lisitsyn, and A. V. Petrov, Investigation of plasma opening switches with pulsed gas guns, Sov. J. Tech. Phys. 36, 894 (1991).
  40. P. S. Anan’in, V. M. Bystriskii, V. B. Karpov, Ya. E. Krasik, I. V. Lisitsyn, and A. A. Sinebryukhov, Electron and ion fluxes during current switching in a microsecond plasma switch at 0.2 TW, Sov. J. Plasma Phys. 17, 39 (1991).
  41. V. M. Bystritskii, Ya. E. Krasik, I. V. Lisitsyn, and A. A. Sinebryukhov, Experimental investigation of the conduction phase of the microsecond plasma opening switch, IEEE Trans. Plasma Sci. 19, 607 (1991).
  42. V. M. Bystritskii, I. V. Lisitsyn, S. N. Volkov, Ya. E. Krasik, and V. G. Tolmacheva , Generation and focusing of high power ion beams in a magnetically insulated diode with applied B field, Laser and Particle Beams 9, 699 (1991).
  43. S. N. Volkov, Ya. E. Krasik, N. M. Polkovnikova, V. A. Sinebruykhov, V. B. Karpov, and P.S. Anan’in, A magnetically isolated diode with Br-field as a generator of high-power microsecond ion beam, Pri. Tekh. Eksp. 2, 179 (1992).
  44. P. S. Anan’in, V. B. Karpov, Ya. E. Krasik, I. V. Lisitsyn, and A. V. Petrov, Application of pulsed gas vents for plasma opening switches, IEEE Trans. Plasma Sci. 20, 537 (1992).
  45. V. M. Bystritskii, S. N. Volkov, I. V. Lisitsyn, Ya. E. Krasik, and V. A. Sinebrukhov, Experimental studies of a microsecond plasma opening switch in the positive polarity regime with inductive load/extraction ion diode, J. Appl. Phys. 71, 5772 (1992).

1995-1997

  1. M. Sarfaty, Y. Maron, Ya. E. Krasik, A. Weingarten, R. Arad, R. Shpitalnik, A. Fruchtman, and S. Alexiou, Spectroscopic investigations of the plasma behavior in a plasma opening switch experiment, Phys. Plasmas 2, 2122 (1995).
  2. V. G. Kugel, G. Rosenman, D. Shur, and Ya. E. Krasik, Copious electron emission from triglycine sulfate ferroelectric crystals, J. Appl. Phys. 78, 2248, (1995).
  3. S. Alexiou, A. Weingarten, Y. Maron, M. Sarfaty, and Ya. E. Krasik, Spectroscopic observation and analysis of non-thermal electric fields in a nanosecond plasma opening switch, Phys. Rev. Lett. 75, 3126 (1995).
  4. D. Shur, Ya. E. Krasik, V. D. Kugel, and G. Rosenman, Plasma assisted electron emission from PLZT ceramic cathodes, J. Appl. Phys. 79, 3669 (1996).
  5. D. Shur, Ya. E. Krasik, and G. Rosenman, Surface discharge plasma induced by spontaneous polarization switching, Appl. Phys. Lett. 70, 574 (1997).
  6. G. Rosenman, D. Shur, Kh. Garb, R. Cohen, and Ya. E. Krasik, Polarization switching in ferroelectric cathodes, J. Appl. Phys. 82, 772 (1997).

 

1998-2000

  1. D. Shur, Ya. E. Krasik, and G. Rosenman, High perveance ferroelectric cathode with narrowed electron energy spread, J. Phys. D: Appl. Phys. 31, 1375 (1998).
  2. Ya. E. Krasik and A. Weingarten, Energetic electron and ion beams generation in plasma opening switch, IEEE Trans. Plasma Sci. 26, 208 (1998).
  3. R. Shpitalnik, A. Weingarten, K. Gomberoff, Ya. E. Krasik, and Y. Maron, Observations of two-dimensional magnetic field evolution in a plasma opening switch, Phys. Plasmas 5, 792 (1998).
  4. Ya. E. Krasik, A. Dunaevsky, and J. Felsteiner, High-frequency electron beam modulation in a diode with an active plasma source, Appl. Phys. Lett. 73, 453 (1998).
  5. Ya. E. Krasik, A. Dunaevsky, J. Felsteiner, and J. Goyer, Observation of downstream energetic electron/ion flow and accompanied high-power microwave radiation during opening of a submicrosecond plasma opening switch, J. Appl. Phys. 85, 686 (1999).
  6. A. Weingarten, S. Alexiou, Y. Maron, M. Sarfaty, Ya. E. Krasik, and A. S. Kingsep, Observation of nonthermal turbulent electric fields in a nanosecond plasma opening switch experiment, Phys. Rev. E 59, 1096 (1999).
  7. Ya. E. Krasik, A. Dunaevsky, and J. Felsteiner, Formation of discharge plasma on the surface of cathodes with different dielectric constants, J. Appl. Phys. 85, 7946 (1999).
  8. A. Dunaevsky, Ya. E. Krasik, J. Felsteiner, and S. Dorfman, Experimental studies of electron/ion emission from the plasma formed on the surface of ferroelectrics. Part I. Studies of plasma parameters without application of extraction voltage, J. Appl. Phys. 85, 8464 (1999).
  9. A. Dunaevsky, Ya. E. Krasik, J. Felsteiner, and S. Dorfman, Experimental studies of electron/ion emission from the plasma formed on the surface of ferroelectrics. Part II. Studies of electron diode operation with ferroelectric plasma cathode, J. Appl. Phys. 85, 8474 (1999).
  10. S. Dorfman, A. Dunaevsky, J. Felsteiner, and Ya. E. Krasik, Comment on “Mixed electron emission from lead zirconate-titanate ceramic”, J. Appl. Phys., 85, 8495 (1999).
  11. A. Dunaevsky, Ya. E. Krasik, J. Felsteiner, and A. Rosenberg, High-frequency modulation of an electron beam produced by a plasma cathode, J. Appl. Phys. 86, 4107 (1999).
  12. A. Weingarten, V. A. Bershtam, A. Fruchtman, C. Grabowski, Ya. E. Krasik, and Y. Maron, Study of the effects of the prefilled-plasma parameters on the operation of a short-conduction plasma opening switch, IEEE Trans. Plasma Sci. 27, 1596 (1999).
  13. A. Dunaevsky, Ya. E. Krasik, J. Felsteiner, and A. Krokhmal, Electron energy and potential distribution in a diode with ferroelectric cathode, J. Appl. Phys. 87, 3270 (2000).

2001

  1. Ya. E. Krasik, A. Dunaevsky, A. Krokhmal, J. Felsteiner, A.V. Gunin, I.V. Pegel, and S.D. Korovin, Emission properties of different cathodes at E<105 V/cm, J. Appl. Phys. 89, 2379 (2001).
  2. A. Dunaevsky, Ya. E. Krasik, J. Felsteiner, S. Dorfman, A. Berner, and A. Sternlieb, Lifetime of ferroelectric cathodes, J. Appl. Phys. 89, 4480 (2001).
  3. Ya. E. Krasik, A. Dunaevsky, and J. Felsteiner, Intense electron emission from carbon fiber cathodes, European Phys. J. D15, 345 (2001).
  4. A. Dunaevsky, Ya. E. Krasik, and J. Felsteiner, and A. Sternlieb, Electron diode with a large area ferroelectric plasma cathode, J. Appl. Phys. 90, 3689 (2001).
  5. A. Dunaevsky, K. Chirko, Ya. E. Krasik, J. Felsteiner, and V. Bernshtam, Spectroscopy of a ferroelectric plasma cathode, J. Appl. Phys. 90, 4108 (2001).

2002

  1. A. Dunaevsky, Ya. E. Krasik, and J. Felsteiner, Ferroelectric plasma cathode with a control grid. J. Appl. Phys. 91, 975 (2002).
  2. K. Chirko, Ya. E. Krasik, A. Dunaevsky, and J. Felsteiner, Investigation of a density modulated electron beam emitted by a ferroelectric cathode. J. Appl. Phys. 91, 3369 (2002).
  3. J. Z. Gleizer, A. Krokhmal, Ya. E. Krasik, and J. Felsteiner, High-current electron beam generation by pulsed hollow cathode, J. Appl. Phys. 91, 3431 (2002).
  4. Ya. E. Krasik, K. Chirko, J. Z. Gleizer, A. Krokhmal, A. Dunaevsky and J. Felsteiner, Application of a ferroelectric plasma cathode as a high-current switch, European Phys. J. D19, 89 (2002).
  5. Ya. E. Krasik, A. Dunaevsky, J. Felsteiner, J. Z. Gleizer, Yu. A. Kotov, S. Yu. Sokovnin, and M. E. Balezin, High-current electron beam generation by a metal-ceramic cathode, J. Appl. Phys. 91, 9385 (2002).
  6. K. Chirko, Ya. E. Krasik and J Felsteiner, Ion beam generation in a diode with a ferroelectric anode, J. Appl. Phys. 91, 9487 (2002).
  7. K. Chirko, Ya. E. Krasik and J. Felsteiner, Enhanced emission mode of a ferroelectric plasma cathode, J. Appl. Phys. 92, 5691 (2002).
  8. A. Krokhmal, J. Z. Gleizer, Ya. E. Krasik, and J. Felsteiner, Low-pressure, high-current hollow cathode with a ferroelectric plasma source, Appl. Phys. Lett. 81, 4341 (2002).
  9. H. Zukerman, Ya. Krasik, and J. Felsteiner, Inactivation of microorganisms using pulsed high-current underwater discharges, Innovative Food Sci. and Emerging Tech. 3, 329 (2002).

2003

  1. M. Kimeldorf, S. Gleizer, Ya. E. Krasik, J. Felsteiner, V. Brumfeld, and H. Zuckerman, Effect of underwater high-current discharge on the properties of low-concentration -lactoglobulin solutions, Innovative Food Sci. and Emerging Tech. 4, 151 (2003).
  2. A. Krokhmal, J. Z. Gleizer, Ya. E. Krasik, J. Felsteiner, and V. I. Gushenets, Electron beam generation in a diode with a hollow anode as an electron source. I. Plasma of hollow anode ignited by arc sources, J. Appl. Phys. 94, 44 (2003).
  3. A. Krokhmal, J. Z. Gleizer, Ya. E. Krasik, J. Felsteiner, and V. I. Gushenets, Electron beam generation in a diode with a hollow anode as an electron source. II. Plasma of hollow anode ignited by a hollow-cathode source. J. Appl. Phys. 94, 54 (2003).
  4. K. Chirko, A. Sayapin, Ya. E. Krasik, and J. Felsteiner, Dense plasma formation on the surface of a ferroelectric induced by a driving pulse with a fast fall time. J. Appl. Phys. 94, 1420 (2003).
  5. J. Z. Gleizer, A. Krokhmal, Ya. E. Krasik, and J. Felsteiner, Generation of high-current electron beams by a hollow cathode with a ferroelectric plasma source, European Phys. J. D 26, 285 (2003).
  6. Ya. E. Krasik, K. Chirko, A. Sayapin, J. Gleizer, A. Krokhmal, and J. Felsteiner, Electron beam generation in a diode with different ferroelectric cathodes, J. Appl. Phys. 94, 5158 (2003).
  7. J. Z. Gleizer, A. Krokhmal, Ya. E. Krasik, and J. Felsteiner, Investigation of a hollow anode with an incorporated ferroelectric plasma source for generation of high-current electron beams, J. Appl. Phys. 94, 6319 (2003).

2004

  1. A. Grinenko, V. Ts. Gurovich, A. Sayapin, S. Efimov, Ya. E. Krasik, and J. Felsteiner, Analysis of shock wave measurements by a piezoelectric pressure probe. Rev. Sci. Instr. 75, 240 (2004).
  2. A. Krokhmal, J. Z. Gleizer, Ya. E. Krasik, V. Ts. Gurovich, and J. Felsteiner, Grid controlled electron emission from a hollow-anode electron source, J. Appl. Phys. 95, 3304 (2004).
  3. V. Ts. Gurovich, A. Grinenko, Ya. E. Krasik, and J. Felsteiner, Simplified model of underwater electrical discharge, Phys. Rev. E 69, 036402-1 (2004).
  4. A. Krokhmal, J. Z. Gleizer, Ya. E. Krasik, V. Ts. Gurovich, and J. Felsteiner, Drastic changes in the plasma potential inside a hollow anode during an applied accelerating pulse. EuroPhysics Lett. 66, 226 (2004).
  5. Ya. E. Krasik, K. Chirko, and J. Felsteiner, Comment on “Generation of powerful electron beams in a dense gas with a dielectric-barrier-discharge-based cathode” [Appl. Phys. Lett. 83, 2760 (2003)], Appl. Phys. Lett. 84, 5273 (2004).
  6. H. Zuckerman, Ya. E. Krasik, and J. Felsteiner, Effect of pulsed shock waves on the activity of polyphenol oxidase, alkaline phosphatase and green fluorescent protein, J. Sci. Food and Agric. 84, 841 (2004).
  7. K. Chirko, V. Ts. Gurovich, Ya. E. Krasik, O. Peleg, J. Felsteiner and V. Bernshtam “High-frequency electron beam generation by a ferroelectric cathode with anomalous plasma resistance caused by ion-acoustic instability”, Phys. Plasmas 11, 3865 (2004).
  8. A. Krokhmal, J. Z. Gleizer, Ya. E. Krasik, D. Yarmolich and J. Felsteiner, and V. Bernshtam, Spectroscopic investigation of the plasma in a hollow anode with an incorporated ferroelectric plasma source. J. Appl. Phys. 96, 4021 (2004).
  9. Yu. Saveliev and Ya. E. Krasik, Comment to the paper “Low level plasma formation in a carbon velvet cesium iodide coated cathode” by D. Shiffler, J. Heggemeier, M. LaCaour, K. Golby, and M. Ruebush [Physics of Plasmas 11, 1680 (2004)]. Phys. Plasmas 11, 5730 (2004).

2005

  1. A. Grinenko, A. Sayapin, V. Tz. Gurovich, S. Efimov, J. Felsteiner and Ya. E. Krasik, Underwater electrical explosion of a Cu wire. J. Appl. Phys. 97, 0233303-1 (2005).
  2. J. Z. Gleizer, D. Yarmolich, A. Krokhmal, Ya. E. Krasik and J. Felsteiner, Optimization of a low-pressure hollow plasma anode for generation of high-current electron beams. European J. Physics D 38, 276 (2005).
  3. O. Peleg, K. Chirko, V. Gurovich, J. Felsteiner and Ya. E. Krasik, Parameters of the plasma produced at the surface of a ferroelectric cathode by different driving pulses, J. Appl. Phys. 97, 113307 (2005).
  4. K. Chirko, Ya. E. Krasik, A. Sayapin, and J. Felsteiner, “Dense plasma formation on the surface of a ferroelectric cathode”, Vacuum 77, 385 (2005).
  5. Ya. E. Krasik, J. Z. Gleizer, A. Krokhmal, V. Ts. Gurovich, D. Yarmolich, J. Felsteiner, V. Bernshtam, and V. I. Gushenets, “Low pressure hollow-anode plasma sources”, Plasma Devices and Operations 13, 19 (2005).
  6. A. Grinenko, V. Tz. Gurovich, A. Saypin, S. Efimov, V. I. Oreshkin, and Ya. E. Krasik, “Strongly coupled copper plasma generated by underwater electrical wire explosion”, Phys. Rev. E 72, 066401 (2005).
  7. Ya. E. Krasik, J. Z. Gleizer, D. Yarmolich, A. Krokhmal, V. Ts. Gurovich, E. Efimov, J. Felsteiner, V. Bernshtam, and Yu. M. Saveliev, “Characterization of the plasma on dielectric fiber (velvet) cathodes”, J. Appl. Phys. 98, 093308 (2005)

2006

  1. Ya. E. Krasik, S. Gleizer, K. Chirko, J. Z. Gleizer, J. Felsteiner, V. Bernshtam, F. C. Matacotta Characterization of a channel spark discharge and the generated electron beam. J. Appl. Phys. 99, 063303 (2006).
  2. J. Z. Gleizer, K. Chirko, D. Yarmolich, S. Efimov and Ya. E. Krasik, Electron beam generation in a diode having a ferroelectric plasma cathode controlled by optic fibers. European Phys. J. Appl. Phys. 34, 35 (2006).
  3. A. Sayapin, A. Grinenko, S. Efimov, and Ya. E. Krasik, Comparison of different methods of measurement of pressure of underwater shock waves generated by electrical discharge. International Journal of Shock Waves 15, 73 (2006).
  4. A. Grinenko, Ya. E. Krasik, S. Efimov, V. Tz. Gurovich, V. I. Oreshkin, Nanosecond time scale, high power electrical wire explosion in water. Phys. Plasmas 13, 042701 (2006).
  5. J. Z. Gleizer, D. Yarmolich, V. Vekselman, J. Felsteiner, and Ya. E. Krasik, High-current, large-area, uniform electron beam generation by grid-controlled hollow anode with a multi ferroelectric plasma source ignition. Plasma Devices and Operations 14, 223 (2006).
  6. A. Grinenko, S. Efimov, A. Fedotov, Ya. E. Krasik, and I. Schnitzer, Addressing the problem of plasma shell formation around an exploding wire in water. Phys. Plasmas 13, 052703 (2006).
  7. D. Yarmolich, V. Vekselman, H. Sagi, V. Tz. Gurovich, and Ya. E. Krasik, Microparticle flow generation by a ferroelectric plasma source. Plasma Devices and Operations 14, 293 (2006).
  8. Ya. E. Krasik, A. Grinenko, A. Sayapin, V. Tz. Gurovich, and I. Schnitzer, Generation of sub-MBar pressure by converging shock waves produced by underwater electrical explosion of wire array. Phys. Rev. E 73, 057301 (2006).
  9. V. Tz. Gurovich, J. Z. Gleizer, Yu. Bliokh, and Ya. E. Krasik, Potential distribution in an ion sheath of non-Maxwellian plasma. Phys. Plasmas 13, 073506 (2006).
  10. A. Grinenko, S. Efimov, A. Fedotov, Ya. E. Krasik, and I. Schnitzer, Efficiency of the shock wave generation caused by underwater electrical wire explosion. J. Appl. Phys. 100, 113509 (2006).
  11. A. Grinenko, V. Tz. Gurovich, Ya. E. Krasik, and Yu. Dolinsky, Addressing water vaporization in the vicinity of an exploding wire. J. Appl. Phys. 100, 113309 (2006).

2007

  1. Ya. E. Krasik, S. Gleizer, V. Gurovich, I. Kronhaus, A. Hershcovithch, P. Nozar, and C. Taliani, Plasma window characterization., J. Appl. Phys. 101, 053305 (2007).
  2. Ya. E. Krasik, S. Gleizer, P. Nozar, and C. Taliani, Pressure and electron energy measurements in a channel spark discharge. Plasma Devices and Operation 15, 107 (2007).
  3. D. Yarmolich, V. Vekselman, J.Z. Gleizer, Y. Hadas, J. Felsteiner, V. Bernshtam, and Ya. E. Krasik, Non-disturbing measurements of hollow anode plasma parameters. Plasma Devices and Operation 15, 115 (2007).
  4. D. Yarmolich, V. Vekselman, J. Z. Gleizer, Y. Hadas, J. Felsteiner, and Ya. E. Krasik, Thompson scattering diagnostics of the plasma generated in a hollow anode with a ferroelectric plasma source, Appl. Phys. Lett. 90, 011502 (2007).
  5. A. Grinenko, V. Tz. Gurovich and Ya. E. Krasik, Implosion in water medium and its possible application for the Inertial Confinement Fusion, Phys. of Plasmas 14, 012701 (2007).
  6. J. Z. Gleizer, Y. Hadas, D. Yarmolich, J. Felsteiner and Ya. E. Krasik, Characterization of multi-capillary dielectric cathodes, Appl. Phys. Lett. 90, 181501 (2007).
  7. A. Fedotov, A. Grinenko, S. Efimov, and Ya. E. Krasik, Generation of cylindrical symmetric converging shock waves by underwater electrical explosion of wire array. Appl. Phys. Lett. 90, 201502 (2007).
  8. V. Tz. Gurovich, A. Grinenko and Ya. E. Krasik, Semi-analytical solution of the problem of converging shock waves, Phys. Rev. Lett. 99, 124503 (2007).
  9. V. I. Oreshkin, S. A. Chaikovsky, N. A. Ratakhin, A. Grinenko, and Ya. E. Krasik, “Water bath” effect at the wire explosion in a water, Phys. Plasmas 14, 102703 (2007).

2008

  1. D. Yarmolich, V. Vekselman, V. Tz. Gurovich, and Ya. E. Krasik, Coulomb micro-explosions of a ferroelectric ceramic, Phys. Rev. Lett. 100, 075004 (2008).
  2. D. Yarmolich, V. Vekselman, and Ya. E. Krasik, A concept of ferroelectric microparticle propulsion thruster, Appl. Phys. Lett. 92, 081504 (2008).
  3. J. Z. Gleizer, Y. Hadas, V. Tz. Gurovich, and Ya. E. Krasik, High-current electron beam generation in a diode with a multicapillary dielectric cathode, J. Appl. Phys. 103, 043302 (2008).
  4. J. Z. Gleizer, Y. Hadas, D. Yarmolich, J. Felsteiner, and Ya. E. Krasik, Characterization of multicapillary cathode, Appl. Phys. Lett. 90, 181501 (2008).
  5. D. Yarmolich, V. Vekselman, V. Tz. Gurovich, J. Felsteiner, and Ya. E. Krasik, “Energetic particles and photons emission during dense plasma formation at the ferroelectric surface”, Plasma Sources Science Technology 17, 035002 (2008).
  6. J. Z. Gleizer, Y. Hadas and Ya. E. Krasik, “Multicapillary Cathode Controlled by a Ferroelectric Plasma Source” Europhysics Lett. 82, 55001 (2008).
  7. V. Vekselman, J. Gleizer, D. Yarmolich, J. Felsteiner, Ya. Krasik, L. Liu, and V. Bernshtam, ‘Plasma characterization in a diode with a carbon-fiber cathode”, Appl. Phys. Lett. 93, 081503 (2008).
  8. Y. Hadas, A. Sayapin and Ya. E. Krasik, V. Bernshtam, and I. Schnitzer, “Plasma dynamics during relativistic S-band magnetron operation”, J. Appl. Phys. 104, 064125 (2008).
  9. S. Efimov, A. Fedotov, S. Gleizer, V. Tz. Gurovich, G. Bazilitski, and Ya. E. Krasik, “Characterization of converging shock waves generated by underwater electrical wire array explosion”, Phys. Plasmas 15, 112703 (2008).
  10. J. Z. Gleizer, Y. Hadas, D. Yarmolich, J. Felsteiner, and Ya. E. Krasik, Comment on “Properties of ceramic honeycomb cathodes” [Appl. Phys. Lett. 92, 141501 (2008)]. Appl. Phys. Lett. 93, 036103 (2008).
  11. A. Fedotov, D. Sheftman, V. Tz. Gurovich, S. Efimov, G. Bazilitski, Ya. E. Krasik, and V. I. Oreshkin, “Spectroscopic research of underwater electrical wire explosion”, Phys. Plasmas 15, 082704 (2008).
  12. D. Yarmolich, V. Vekselman, V. Tz. Gurovich, J. Z. Gleizer, J. Felsteiner and Ya. E. Krasik “Micron-scale width multi-slot plasma cathode”, Phys. Plasmas 15, 123507 (2008).

 

2009

  1. D. Veksler, A. Sayapin, S. Efimov and Ya. E. Krasik, “Characterization of different wire configurations in underwater electrical explosion” IEEE Trans. Plasma Science 37, 88 (2009).
  2. D. Yarmolich, Ya. E. Krasik, S. Stambulchik, V. Bernshtam, J. K. Yoon, B. Herrera, S.-J. Park, and  J.G. Eden, “Self-pulsing 104 Acm-2 current density discharges in dielectric barrier Al/Al2O3 microplasma devices“, Appl. Phys. Lett. 94, 011501 (2009).
  3. Y. Hadas, A. Sayapin, T. Kweller, and Ya. E. Krasik, “S-band relativistic magnetron operation with an active plasma cathode”, J. Appl. Phys. 105, 083307 (2009).
  4. A. S. Shlapakovski, T. Kweller, Y. Hadas, Ya. E. Krasik, S. D. Polevin, and I. K. Kurkan, Effects of different cathode materials on submicrosecond double-gap vircator operation, IEEE Trans. Plasma Sci. 37, 1233 (2009).
  5. A. Sayapin, Y. Hadas, and Ya.E. Krasik, “Drastic improvement in the S-band relativistic magnetron operation”, Appl. Phys. Lett. 95, 074101 (2009).
  6. S. Gleizer, D. Yarmolich, J. Felsteiner, Ya. E. Krasik, P. Nozar, and C. Taliani. Electron beam and plasma modes of a channel spark discharge operation”, J. Appl. Phys. 106, 073301 (2009).
  7. Y. Hadas, T. Kweller, A. Sayapin, Ya. E. Krasik, and V. Bernshtam “Plasma parameters of an active cathode during relativistic magnetron operation”, J. Appl. Phys. 106, 063306 (2009).
  8. V. Tz. Gurovich, Ya. E. Krasik, V. Raichlin and I. Haber “Addressing the plasma formation on the surface of a ferroelectric sample”, J. Appl. Phys. 106, 053301 (2009).
  9. V. Vekselman, J. Gleizer, S. Yatom, D. Yarmolich, V. Tz. Gurovich, G. Bazalitski, V. Bernshtam, and Ya. E. Krasik, “Laser induced fluorescence of the ferroelectric plasma source assisted hollow anode discharge“, Physics of Plasmas 16, 113504 (2009).
  10. A. V. Fedotov-Gefen and Ya. E. Krasik, “Polarimetry and Schlieren diagnostics of underwater exploding wires”, J. Appl. Phys. 106, 093303 (2009).
  11. S. Efimov, V. Tz. Gurovich, G. Bazalitski, A. Fedotov, and Ya. E. Krasik, “Addressing efficiency of the energy transfer to the water flow by underwater electrical wire explosion”, J. Appl. Phys. 106, 073308 (2009).

2010

  1. A. Sayapin and Ya. E. Krasik, “Numerical simulation of the magnetron operation with resonance load”, J. Appl. Phys. 107, 074501 (2010).
  2. A. Fedotov-Gefen, S. Efimov, L. Gilburd, S. Gleizer, G. Bazalitsky, V. Tz. Gurovich and Ya. E. Krasik, “Extreme water state produced by underwater wire-array electrical explosion”, Appl. Phys. Lett. 96, 221502 (2010).
  3. D. Sheftman and Ya. E. Krasik, “Investigation of electrical conductivity and equation of state of non-ideal plasma through underwater electrical wire explosion”, Phys. Plasmas 17, 112702 (2010).
  4. V. Vekselman, J. Z. Gleizer, S. Yatom, V. Tz. Gurovich and Ya. E. Krasik, “High-current diode with ferroelectric plasma source assisted hollow anode”, J. Appl. Phys. 108, 093303 (2010).
  5. T. Kweller, A. Shlapakovski, and Ya. E. Krasik, ”Plasma formation in double-gap vircator”, J. Appl. Phys. 108, 103302 (2010).

2011

  1. G. Bazalitski, V. Ts. Gurovich, A. Fedotov-Gefen, S. Efimov and Ya. E. Krasik, “Simulation of converging cylindrical GPa-range shock waves generated by wire array underwater electrical explosion” International Journal on Shock Waves, Detonations and Explosions, 21, 321 (2011).
  2. J. Z. Gleizer, V. Vekselman, S. Yatom, J. Felsteiner and Ya. E. Krasik, “Low-energy electron beam source”, Radiation Effects and Defects in Solids incorporating Plasma Science and Technology”, 166, 389 (2011).
  3. S. Yatom, V. Vekselman, J. Gleizer and Ya. E. Krasik, “Space- and time-resolved characterization of nanosecond time scale discharge at pressurized gas”, J. Appl. Phys. 109, 073312 (2011).
  4. A. Fedotov Gefen, S. Efimov, L. Gilburd, G. Bazilitski, V. Tz. Gurovich and Ya. E. Krasik, “Generation of a 400 GPa pressure in water using converging strong shock waves”, Phys. Plasma 18, 062701 (2011).
  5. D. Yarmolich, P. Nozar, S. Gleizer, Ya. E. Krasik, G. Mittica, C. Ancora, A. Brillante, I. Bilotti, and C. Taliani, “Characterization of deposited films and the electron beam generated in the pulsed plasma deposition gun”, Jap. JAP, 50, 08J03-1-5 (2011).
  6. D. Levko, V. Tz. Gurovich, and Ya. E. Krasik, “Numerical simulation of anomalous electrons generation in vacuum diode”, J. Appl. Phys. 110, 043302 (2011).
    D. Sheftman and Ya. E. Krasik, “Evaluation of electrical conductivity and equations of state of non-ideal plasma through microsecond timescale underwater electrical wire explosion”, Phys. Plasmas 18, 092704 (2011).
  7. W. An, Ya. E. Krasik, R. Fetzer, B. Bazylev, G. Muller, A. Weisenburger, and V. Bernshtam, “ Characterization of high-current electron beam interaction with metal targets”, J. Appl. Phys. 110, 093304 (2011).
  8. S. Yatom, J. Z. Gleizer, D. Levko, V. Vekselman, V. Gurovich, E. Hupf, Y. Hadas and Ya. E. Krasik, “Time-resolved investigation of nanosecond discharge in dense gas sustained by short and long high-voltage pulse”, EuroPhysics Lett. 96, 65001 (2011).

2012

  1. Yu. Bliokh, Ya. E. Krasik and J. Felsteiner, “Self-injection-locked magnetron as an active ring resonator side-coupled to a waveguide with delayed feedback loop”, IEEE Trans. Plasma Scie. 40, 78 (2012).
  2. L. Gilburd, S. Efimov, A. Fedotov-Gefen, V. Tz. Gurovich, G. Bazalitzky, O. Antonov, and Ya. E. Krasik, “Modified wire array underwater electrical explosion”, Laser and Particle Beams 30, 215 (2012).
  3. D. Levko, S. Yatom, V. Vekselman, J. Z. Gleizer, V. Tz. Gurovich, and Ya. E. Krasik, “Effect of explosive emission on runaway electron generation“, J. Appl. Phys. 111, 013304 (2012).
  4. D. Levko, V. Tz. Gurovich, and Ya. E. Krasik, “Numerical simulation of the pre-ionization processes during nanosecond-pulse discharge in nitrogen” J. Appl. Phys. 111, 013306 (2012).
  5. D. Levko, S. Yatom, V. Vekselman, J. Z. Gleizer, V. Tz. Gurovich, and Ya. E. Krasik, “Numerical simulations of runaway electron generation in pressurized gases” J. Appl. Phys. 111, 013303 (2012).
  6. A. Shlapakovski, T. Queller, Yu. Bliokh, and Ya. E. Krasik, “Investigations of a Double-Gap Vircator at Sub-Microsecond Pulse Durations”, IEEE Trans. Plasma Scie. 40, 1607 (2012).
  7. V. Tz. Gurovich, V. Raikhlin, G. Bazalitski, J. Felsteiner, Ya. E. Krasik and I. Haber “Energetic electron emission from a ferroelectric during incomplete surface discharge” Radiation and Defects in Solids 167, 651 (2012).
  8. S. Efimov, L. Gilburd, A. Fedotov-Gefen, V. Tz. Gurovich, J. Felsteiner, and Ya. E. Krasik, “Aluminum micro-particles combustion ignited by underwater electrical wire explosion”, An International Journal on Shock Waves, Detonations and Explosions, 22, 207 (2012).
  9. J. Mizrahi, V. Vekselman, V. Gurovich and Ya. E. Krasik, “Simulation of Plasma Parameters during Hollow Cathodes Operation” Journal of Propulsion and Power 28, 1134 (2012).
  10. S. Yatom, D. Levko, J. Z. Gleizer, V. Vekselman and Ya. E. Krasik, “X-ray diagnostics of runaway electrons generated during nanosecond discharge in gas at elevated pressures”, Appl. Phys. Lett. 100, 024101 (2012).
  11. D. Levko and Ya. E. Krasik “Numerical simulation of runaway electrons generation in sulfur hexafluoride”, J. Appl. Phys. 111, 013305 (2012).
  12. D. Sheftman, D. Shafer, S. Efimov and Ya. E. Krasik “Evaluation of electrical conductivity of Cu and Al through sub microsecond underwater electrical wire explosion”, Phys. Plasmas 19, 034501 (2012).
  13. D. Levko, V. Tz. Gurovich and Ya. E. Krasik, “Conductivity of nanosecond discharges in nitrogen and sulfur hexafluoride studied by particle-in-cell simulations”, J. Appl. Phys. 111, 123303 (2012).
  14. J. Z. Gleizer, T. Queller, Yu. Bliokh, S. Yatom, V. Vekselman, Ya. E. Krasik, V. Bernshtam, “High-current carbon-epoxy capillary cathode”, J. Appl. Phys. 112, 023303 (2012).
  15. E. P. Gilson, R. C. Davidson, P. C. Efthimion, J. Z. Gleizer, I. D. Kaganovich and Ya. E. Krasik, “Plasma source development for the NDCX-I and NDCX-II neutralized drift compression experiments”, Laser and Particle Beams 30, 435 (2012).
  16. O. Antonov, L. Gilburd, S. Efimov, G. Bazalitski, V. Tz. Gurovich, and Ya. E. Krasik, “Generation of extreme state of water by spherical wire array underwater electrical explosion”, Phys. Plasmas 19, 102702 (2012).
  17.  D. Levko, S. Yatom, V. Vekselman, and Ya. E. Krasik, “Electron emission mechanism during the nanosecond high-voltage pulsed discharge in pressurized air”, Appl. Phys, Lett. 100, 084105 (2012).
  18. D. Levko, V. F. Tarasenko, and Ya. E. Krasik, “The physical phenomena accompanying the sub-nanosecond high-voltage pulsed discharge in nitrogen”, J. Appl. Phys. 112, 073304 (2012).
  19. D. Sheftman, D. Shafer, S. Efimov, K. Gruzinsky, S. Gleizer, and Ya. E. Krasik, “Diagnostics of underwater electrical wire explosion through a time and space-resolved hard x-ray source”, Rev. Scie. Instrum. 83, 103505 (2012).
  20. T. Queller, J. Z. Gleizer, and Ya. E. Krasik, “Secondary-electron-induced cathode plasma in relativistic magnetron”, Appl. Phys. Lett. 101, 214101 (2012).
  21. D. Levko and Ya. E. Krasik, “Particle-in-cell simulations of the runaway breakdown of nitrogen”, J. Appl. Phys. 112, 113302 (2012).
  22. S. Yatom, V. Vekselman, and Ya. E. Krasik, “Time evolution of nanosecond runaway discharges in air and helium at atmospheric pressure”, Phys. Plasmas 19, 123507 (2012).

2013

  1. J. H. Palacio Mizrahi, V. Tz. Gurovich and Ya. E. Krasik, “Unified one-dimensional model of bounded plasma with nonzero ion temperature in a broad pressure range”, Phys. Plasma 20, 032116 (2013).
  2. D. Levko, Ya. E. Krasik, W. An and G. Muller, “Numerical simulations of the plasma generated by the interaction of high-current electron beam with Al target” J. Appl. Phys. 113, 123302 (2013).
  3. O. Antonov, S. Efimov, D. Yanuka, M. Kozlov, V. Tz. Gurovich and Ya. E. Krasik, “Generation of converging strong shock wave formed by microsecond timescale underwater electrical explosion of spherical wire array” App. Phys. Lett. 102, 124104 (2013).
  4. V. Vekselman, Ya. E. Krasik, S. Gleizer, V. Tz. Gurovich, A. Warshavsky, and L. Rabinovich. “Characterization of a Heaterless Hollow Cathode”, Journal of Propulsion and Power 29, 475 (2013).
  5. D. Shafer, G. R. Toker, V. Tz. Gurovich, S. Gleizer, and Ya. E. Krasik, “Peculiarity of convergence of shock wave generated by underwater electrical explosion of ring-shaped wire”, Phys. Plasma 20, 052702 (2013).
  6. D. Levko, Ya. E. Krasik, V. F. Tarasenko, D. V. Rybko, and A. G. Burachenko, Temporal and spatial structure of a runaway electron beam in air at atmospheric pressure, J. Appl. Phys. 113, 196101 (2013).
  7. L. Beilin, A. Shlapakovski and Ya. E. Krasik, “Resonant microwave pulse compressor operating in two frequencies”, J. Appl. Phys. 114, 034503 (2013).
  8. S. Yatom, E. Stambulchik, V. Vekselman, and Ya. E. Krasik, “Spectroscopic study of plasma evolution in runaway nanosecond atmospheric-pressure He discharges”, Phys. Rev. E. 88, 013107 (2013).
  9. D. Levko, Ya. E. Krasik, V. Vekselman, and I. Haber, “Two-dimensional model of orificed micro-hollow cathode discharge for space application”, Phys. Plasmas 20, 083512 (2013).
  10. J. H. Palacio Mizrahi and Ya.E. Krasik, “Bohm velocity in the presence of a hot cathode”, Phys. Plasmas 20, 083510 (2013).
  11. S. Efimov, K. Gruzinski, S. Gleizer and Ya. E. Krasik, Design and Performances of High-Current Modular Pulsed Power, J. Energy and Power Engineering 7, 1394 (2013).
  12. T. Queller, J. Z. Gleizer, and Ya. E. Krasik, “High current long-duration uniform electron beam generation in a diode with multicapillary carbon-epoxy cathode”, J. Appl. Phys. 114, 123303 (2013).
  13. M. Kozlov, V. Tz. Gurovich, and Ya. E. Krasik, “Stability of imploding shocks generated by underwater electrical explosion of cylindrical wire array”, Phys. Plasma 20, 112701 (2013).
  14. A. Sayapin, A. Levin, and Ya. E. Krasik, “Charging of the traveling wave resonator of the microwave compressor by a relativistic S-band magnetron”, IEEE Trans. Plasma Scie. 41, 2506 (2013).
  15. A. Sayapin, A. Levin, and Ya. E. Krasik, “Stabilization of the Frequency of Relativistic S-Band Magnetron with Radial Output”, IEEE Trans. Plasma Scie. 41, 3001 (2013).
  16. D. Shafer, G. Toker, V. Tz. Gurovich, and Ya. E. Krasik, “Generation of cumulative jets during underwater explosion of copper wires in the “X-pinch” configuration”, J. Appl. Phys. 114, 203301 (2013).
  17. S. Yatom, S. Tskhai, and Ya. E. Krasik, “Electric field in a plasma channel in a high-presure nanosecond discharge in hydrogen: a coherent anti-Stokes Raman scattering study”, PRL 111, 255001 (2013).

2014

  1. D. Levko, Yu. Bliokh and Ya. E. Krasik, “Influence of Xe2 + ions on the micro-hollow cathode discharge driven by thermionic emission” Phys. Plasmas 21, 043503 (2014).
  2. S. Yatom and Ya. E. Krasik, “Plasma density evolution during nanosecond discharge in hydrogen gas at (1–3)105 Pa pressure”, J. Phys. D: Appl. Phys. 47, 215202 (2014).
  3. A. Shlapakovski, L. Beilin, Yu. Bliokh, M. Donskoi, Y. Hadas, E. Schamiloglu, and Ya. E. Krasik, “Numerical simulations of output pulse extraction from a high-power microwave compressor with a plasma switch”, J. Appl. Phys. 115, 173302 (2014).
  4. L. Beilin, A. S. Shlapakovski, M. Donskoy, Y. Hadas, U. Dai, and Ya. E. Krasik, “Fast-Framing Optical Imaging of Plasma Formation in Resonant Microwave Pulse Compressor” IEEE Trans. Plasma Scie. 42, 1346 (2014).
  5. E. Zvulun, G. Toker, V. Tz. Gurovich, and Ya. E. Krasik, “Shockwave generation by a semiconductor bridge operation in water”, J. Appl. Phys. 115, 203301 (2014).
  6. O. Antonov, S. Efimov, V. Tz. Gurovich, D. Yanuka, D. Shafer, and Ya. E. Krasik, “Diagnostics of a converging strong shock wave generated by underwater explosion of spherical wire array”, J. Appl. Phys. 115, 223303 (2014).
  7. J. Z. Gleizer, Ya. E. Krasik, U. Dai and J.G. Leopold, “Vacuum surface flashover: experiments and simulations”, Trans. On Dielectrics and Electrical Insulation 21, 2394 (2014).
  8. D. Levko and Ya. E. Krasik, “Electron heating during discharges driven by thermionic emission”, Phys. Plasmas 21, 112105 (2014).
  9. A. Sayapin, A. Levin, U. Dai and Ya. E. Krasik, “Stabilized operation of a microwave compressor driven by relativistic S-band magnetron”, IEEE Trans. Plasma Sci., 42, 3961 (2014).

2015

  1. D. Shafer, T. Tz. Gurovich, D. Yanuka, E. Zvulun, S. Gleizer, G. Toker, and Ya. E. Krasik, Generation of fast cumulative water jets by underwater electrical explosion of conical wire arrays, J. Appl. Phys. 117, 015901 (2015).
  2. L. Beilin, A. Shlapakovski, M. Donskoy, T. Queller and Ya. E. Krasik, “Plasma density temporal evolution in a high-power microwave pulse compressor switch”, EPL 109, 25001 (2015).
  3. J. Z. Gleizer, Ya. E. Krasik and J. Leopold, Time- and space-resolved light emission and spectroscopic research of the flashover plasma, J. Appl. Phys. 117, 073301 (2015).
  4. D. Levko, Y. P. Bliokh, and Ya. E. Krasik, “Influence of the floating potential on micro-hollow cathode operation”, Phys. Plasma 22, 063503 (2015).
  5. D. Yanuka, D. Shafer, and Ya. E. Krasik, Shock wave convergence in water with parabolic wall boundaries”, J. Appl. Phys. 117, 163305 (2015).
  6. A. S. Shlapakovski, L. Beilin, Y. Hadas, E. Schamiloglu, and Ya. E. Krasik “Operation of a microwave pulse compressor with a laser-triggered plasma switch at different laser beam directions”, IEEE Trans. Plasma Scie. 43, 2140 (2015).
  7. A. S. Shlapakovski, L. Beilin, Y. Hadas, E. Schamiloglu, and Ya. E. Krasik, “Self-consistent evolution of plasma discharge and electromagnetic fields in a microwave pulse compressor”, Phys. Plasma 22, 073111 (2015).
  8. E. E. Rocha, P. M. Kelly, J. M. Parson, C. F. Lynn, J. C. Dickens, A. A. Neuber, J. J. Mankowski, T. Queller, J. Gleizer, and Ya. E. Krasik, “Evaluating the performance of a carbon-epoxy capillary cathode and carbon fiber cathode in a sealed-tube vircator under UHV conditions”, IEEE Trans. Plasma Scie. (2015).
  9.  Ya. E. Krasik and J. G. Leopold, “Initiation of vacuum insulator surface high-voltage flashover with electrons produced by laser illumination,” Phys. Plasmas 22, 083109-1 (2015).
  10. D. Yanuka, M. Kozlov, H.E. Zinowits, and Ya. E. Krasik, “Convergence of shock waves generated by underwater electrical explosion of cylindrical wire arrays between different boundary geometries”, Phys. Plasmas 22, 102708 (2015).
  11. J. Dai, C. S. Corr, S. B. Ponraj, M. Maniruzzaman, A. T. Ambujakshan, Z. Chen, L. Kviz, R. Lovett, G. D. Rajmohan, D. R. de Celis, M. L. Wright, P. R. Lamb, Ya. E. Krasik, D. B. Graves, W. G. Graham, R. d’Agostino and X. Wang, “Efficient and Selectable Production of Reactive Species using a Nanosecond Pulsed Discharge in Gas Bubbles in Liquid” Plasma Processes and Polymers (2015). Doi: 10.1002/ppap. 201500156
  12. D. Levko, Y. P. Bliokh, V. Tz. Gurovich, and Ya. E. Krasik, “Instability of plasma plume of micro-hollow cathode discharge”, Phys. Plasmas 22, 113502 (2015).
  13. G. Shafir, M. Kreif, J. Z. Gleizer, S. Gleizer, Ya. E. Krasik, A. V. Gunin, O. P. Kutenkov, I. V. Pegel, and V. V. Rostov, “Experimental research of different plasma cathodes for generation of high-current electron beams”, J. Appl. Phys. 118, 193302 (2015).
  14. A. Sayapin, A. Levin, Ya. E. Krasik, “Operation of a six-cavity S-band relativistic magnetron at frequencies in the range of its resonant response”, IEEE trans. Plasma Science 43, 3827 (2015).

2016

  1. D. Varentsov, O. Antonov, A. Bakhmutova, C. W. Barnes, A. Bogdanov, C. R. Danly, S. Efimov, M. Endres, A. Fertman, A. A. Golubev, D. H. H. Hoffmann, B. Ionita,A. Kantsyrev, Ya. E. Krasik, P. M. Lang, I. Lomonosov, F. G. Mariam, N. Markov, F. E. Merrill, V. B. Mintsev, D. Nikolaev, V. Panyushkin, M. Rodionova, M. Schanz, K. Schoenberg, A. Semennikov, L. Shestov, V. S. Skachkov, V. Turtikov, S. Udrea, O. Vasylyev, K. Weyrich, C. Wilde, and A. Zubareva, Commissioning of the PRIOR proton microscope, Rev. Sci. Instrum. 87, 023303 /to full article/ (2016).
  2. M. Nitishinskiy, S. Efimov, O. Antonov, D. Yanuka, V. Tz. Gurovich, V. Bernshtam, V. Fisher, and Ya. E. Krasik, Converging shock wave focusing and interaction with target, Phys. Plasmas 23, 042705 (2016).
  3. D. Yanuka, S. Efimov, M. Nitishinskiy, A. Rososhek, and Ya. E. Krasik, Generation of strong pulsed magnetic fields using a compact, short pulse generator, J. Appl. Phys. 119, 144901 (2016).
  4. D. Yanuka, H. E. Zinowits, O. Antonov, S. Efimov, A. Virozub, and Ya. E. Krasik, Convergence of shock waves between conical and parabolic boundaries, Phys. Plasmas 23, 072704 (2016).
  5. A. Shlapakovski, S. Gorev, and Ya. E. Krasik, Improved operation of a microwave pulse compressor with a laser-triggered high pressure gas plasma switch, Phys. Plasma 23, 080702 (2016).
  6. J. G. Leopold, A. S. Shlapakovski, A. F. Sayapin, and Ya. E. Krasik Pulse-shortening in a relativistic magnetron: the role of anode block axial endcaps, IEEE Trans. Plasma Scie. 44, 1375 (2016).
  7. A. Virozub, V. Tz. Gurovich, D. Yanuka, O. Antonov, and Ya. E. Krasik, “Addressing optimal underwater electrical explosion of a wire”, Phys. Plasmas 23, 092708 (2016).
  8. M. Nitishinskiy, S. Efimov, D. Yanuka, V. Tz. Gurovich, and Ya. E. Krasik, “Addressing the problem of uniform converging spherical shock wave in water” Phys. Plasmas 23, 103507 (2016).
  9. D. Yanuka, A. Rososhek, S. Efimov, M. Nitishinskiy, and Ya. E. Krasik, “Time-resolved spectroscopy of light emission from plasma generated by a converging strong shock wave in water”, Appl. Phys. Lett. 109, 244101 (2016).

2017

  1. G. Shafir, D. Zolotukhin, V. Godyak, A Shlapakovski, S. Gleizer, Ya. Slutsker, R. Gad, V. Bernshtam, Yu. Ralchenko and Ya. E. Krasik, “Characterization of inductively coupled plasma generated by a quadruple antenna”, Plasma Sources Sci. Technol. 26 025005 (13pp) (2017).
  2. G. Shafir, A. Shlapakovski, M. Siman-Tov, Yu. Bliokh, J. G. Leopold, S. Gleizer, R. Gad,V. V. Rostov, and Ya. E. Krasik “High power microwave source for a plasma wakefield experiment”, J. Appl. Phys. 121, 033301 (2017).
  3. Y. Binenbaum, G. Ben-David, Z. Gil, Ya. Z. Slutsker, M. A. Ryzhkov, J. Felsteiner, Ya. E. Krasik, J. T. Cohen, “Cold Atmospheric Plasma, Created at the Tip of an Elongated Flexible Capillary Using Low Electric Current, Can Slow the Progression of Melanoma”, PLoS ONE 12(1): e0169457;
  4. A.Sayapin, U. Dai, and Ya. E. Krasik, “S-Band Relativistic Magnetron Operation With Multichannel Radial Outputs of the Microwave Power”, IEEE Trans. Plasma Scie. 45, 229 (2017)
  5. D. Yanuka, A. Rososhek, and Ya. E. Krasik, “Comparison of electrical explosions of Cu and Al wires in water and glycerol”, Physics of Plasmas 24, 053512 (2017).
  6. Y. P. Bliokh, J. G. Leopold, G. Shafir, A. Shlapakovski, and Ya. E. Krasik, “Wakefield in a waveguide”, Phys. Plasmas 24, 063112 (2017)
  7. J. G. Leopold, M. Siman-Tov, A. Goldman, and Ya. E. Krasik, Over-injection and self-oscillations in an electron vacuum diode, Phys. Plasmas 24, 073116 (2017) .
  8. S. N. Bland, Ya. E. Krasik, D. Yanuka, R. Gardner, J. MacDonald, A. Virozub, S. Efimov, S. Gleizer, and N. Chaturvedi, Generation of highly symmetric, cylindrically convergent shockwaves in water, Phys. Plasmas 24, 082702 (2017).
  9. Ya. Z. Slutsker, V. E. Semenov, Ya. E. Krasik, M. A. Ryzhkov, J. Felsteiner, Y. Binenbaum, Z. Gil, R. Shtrichman, and J. T. Cohen, Electrical model of cold atmospheric plasma gun, Physics of Plasmas 24, 103510 (2017).
  10. Zh. Chen, Ya. E. Krasik, S. Cousens, A. T. Ambujakshan, C. Corr, and Xi. J. Dai, Generation of underwater discharges inside gas bubbles using a 30-needles-to-plate electrode, J. Appl. Phys. 122, 153303 (2017).
  11. D. Yanuka, A. Rososhek, S. N. Bland, and Ya. E. Krasik, Uniformity of cylindrical imploding underwater shockwaves at very small radii, Appl. Phys. Lett. 111, 214103 (2017).
  12. A. Sayapin, U. Dai, and Ya. E. Krasik, “S-band microwave radiation by a high-impedance diode with an A6 anode block”, Appl. Phys. Lett. 111,233503 (2017).
  13. M. Nitishinskiy, D. Yanuka, A. Virozub, and Ya. E. Krasik, “Radial density distribution of a warm dense plasma formed by underwater electrical explosion of a copper wire”, Phys. Plasmas 24, 122703 (2017).

2018

  1. A. Rososhek, S. Efimov, S. V. Tewari, D. Yanuka, V. Tz. Gurovich, and Ya. E. Krasik, “Electrical explosions of spherical wire arrays in water and glycerol”, Phys. Plasma 24, 122705 (2018).
  2. D. Levko, S. Yatom, and Ya. E. Krasik, “Particle-in-cell modeling of the nanosecond field emission driven discharge in pressurized hydrogen”, J. Applied Phys. 123, 083303 (2018).
  3. G. Shafir, Y. Cao, Y. Bliokh, J. G. Leopold, D. Levko, V. Rostov, R. Gad, A. Fisher, V. Bernshtam, and Ya. E. Krasik, “The interaction of intense, ultra-short microwave beams with the plasma generated by gas ionization”, Phys. Plasmas 25, 032308 (2018).
  4. G. Shafir, Ya. E. Krasik, Y. P. Bliokh, D. Levko, Y. Cao, J. G. Leopold, R. Gad, V. Bernshtam, and A. Fisher, “Ionization-Induced Self-Channeling of an Ultrahigh-Power Subnanosecond Microwave Beam in a Neutral Gas”, Phys. Rev. Lett. 120, 135003 (2018).
  5. V. Gurovich, A. Virozub, A. Rososhek, S. Bland, R. B. Spielman, and Ya. E. Krasik, Quasi-isentropic compression using compressed water flow generated by underwater electrical explosion of a wire array, J. Appl. Phys. 123, 185902 (2018).
  6. Y. Cao, J. G. Leopold, Y. P. Bliokh, and Ya. E. Krasik, “Self-channeling of a powerful microwave beam in a preliminarily formed plasma”, Phys. Plasmas 25, 103101 (2018).
  7. M. Nitishinskiy, A. Virozub, A. Rososhek, D. Yanuka, and Ya. E. Krasik, “Density evolution of a copper wire during nanosecond timescale underwater Explosions”, Phys. Plasmas 25, 092709 (2018).
  8. D. Yanuka, A. Rososhek, S. Theocharous, S. N. Bland, Ya. E. Krasik, M. P. Olbinado, and A. Rack, “Multi frame synchrotron radiography of pulsed power driven underwater single wire explosions”, J. App. Phys. 124, 153301 (2018).
  9. A. Rososhek, S. Efimov, S. V. Tewari, D. Yanuka, K. Khishchenko and Ya. E. Krasik, “Phase transitions of copper, aluminum, and tungsten wires during underwater electrical explosions”, Phys. Plasmas 25, 102709 (2018).

2019

  1. S. P. Theocharous, S. N. Bland, D. Yanuka, A. Rososhek, M. P. Olbinado, A. Rack, and Ya. E. Krasik, “Use of synchrotron-based radiography to diagnose pulsed power driven wire explosion experiments”, Rev. Sci. Instrum. 90, 013504 (2019).
  2. Y. Cao, Y. Bliokh, J. G. Leopold, V. Rostov, Ya. Slutsker, and Ya. E. Krasik, “Wakefield excitation by a powerful sub-nanosecond 28.6 GHz microwave pulse propagating in a plasma filled waveguide”, Phys. Plasmas 26, 023102 (2019).
  3. D. Yanuka, S. Theocharous, S. Efimov, S. N. Bland, A. Rososhek, Ya. E. Krasik, M. P. Olbinado, and A. Rack, “Synchrotron based X-ray radiography of convergent shock waves driven by underwater electrical explosion of a cylindrical wire array”, J. Appl. Phys. 125, 093301 (2019).
  4. M. Siman-Tov, J. G. Leopold, and Ya. E. Krasik, “Self-oscillations in an over-injected electron diode – Experiment and analysis”, Phys. Plasmas 26, 033113 (2019).
  5. A. Rososhek, S. Efimov, V. Gurovich, A. Virozub, S. V. Tewari, and Ya. E. Krasik, “Evolution of a shock wave generated by underwater electrical explosion of a single wire”, Phys. Plasmas 26, 042302 (2019).
  6. D. Yanuka, A. Rososhek, S. Theocharous, S. N. Bland, Ya. E. Krasik, M. P. Olbinado, A. Rack, and E. V. Oreshkin, “X-ray radiography of the overheating instability in underwater electrical explosions of wires”, Phys. Plasmas 26, 050703 (2019).
  7. A. Rososhek, S. Efimov, A. Goldman, S. V. Tewari, and Ya. E. Krasik, “Microsecond timescale combustion of aluminum initiated by an underwater electrical wire explosion”, Phys. Plasmas 26, 053510 (2019).
  8. A. Rososhek , S. Efimov, A. Virozub , D. Maler , and Ya. E. Krasik, “Particularities of shocks generated by underwater electrical explosions of a single wire and wire arrays”, Appl. Phys. Lett. 115, 074101 (2019).
  9. Ya. E. Krasik, J. Leopold and U. Dai, ”A Relativistic magnetron insulated with permanent magnets”, IEEE Trans. Plasma Scie. 47, 3997 (2019).
  10. J. G. Leopold, Y. P. Bliokh, M. Siman-Tov and Ya. E. Krasik, “Generation of High-Current Pulses by a Magnetized Squeezed Electron Beam”, Phys. Plasmas 26, 093107 (2019).

2020

  1. M. Siman-Tov, J. G. Leopold, and Ya. E. Krasik, “A self-oscillating electron beam experiment”, Phys. Plasma 26, 023104 (2020).
  2. Y. Cao , J. G. Leopold, Y. P. Bliokh, A. Li, G. Shafir, A. Fisher, G. Leibovitch, V. V. Rostov , and Ya. E. Krasik, “The Interaction of a high-power sub-nanosecond microwave pulse with plasma”, IEEE Trans. Plasma Scie. 48, 792 (2020).
  3. Y. Cao, Y. P. Bliokh, J. G. Leopold, A. Li, G. Leibovitch, and Ya. E. Krasik, “Wake excitation by a powerful microwave pulse and its evolution in a plasma-filled waveguide”, Phys. Plasma 27, 053103 (2020).
  4. A. Rososhek, S. Efimov, D. Maler, A. Virozub, and Ya. E. Krasik “Shockwave generation by electrical explosion of cylindrical wire arrays in hydrogen peroxide/water solutions”, Appl. Phys. Lett. 116, 243702 (2020).
  5. A. S. Kesar, A. Raizman, G. Atar, S. Zoran, S. Gleizer, Ya. Krasik, and D. Cohen-Elias, “A fast avalanche Si diode with a 517 μm low-doped region”, Appl. Phys. Lett. 117, 013501 (2020).
  6. M. Siman-Tov, J. G. Leopold, Y. P. Bliokh, and Ya. E. Krasik, “Periodic bunches produced by electron beam squeezed states in a resonant cavity”, Phys. Plasmas 27, 083103 (2020).
  7. J. G. Leopold, Ya. E. Krasik, Y. P. Bliokh, and E. Schamiloglu “Producing a magnetized low energy, high electron charge density state using a split cathode”, Phys. Plasma 27, 103102 (2020)
  8. Ya. E. Krasik, “Plasma Cathode Research in Plasma Physics and Pulsed Power Laboratory”, Izvestiya Vyzov, v. 63, no.10, pp.17-32 (2020)
  9.  S. G. Chefranov, Dissipative instability of shock waves, JETP (Journal of Experimental and Theoretical Physics), 130, 633 (2020)
  10. S. G. Chefranov, Dissipative instability of converging cylindrical shock waves, Phys. Fluids, 32, 114103 (2020); Invited paper; https://doi.org/10.1063/5.0027109

2021

  1. D. Maler, A. Rososhek, S. Efimov, A. Virozub, and Ya. E. Krasik, “Efficient target acceleration using underwater electrical explosion of wire array”, J. Appl. Phys. 129, 034901 (2021).
  2. A. Rososhek, D. Nouzman, Ya. E. Krasik, “Addressing the symmetry of a converging cylindrical shock wave in water close to implosion”, Appl. Phys. Lett. 118, 174103 (2021)
  3. D. Maler, S. Efimov, A. Rososhek, S. N. Bland, and Ya. E. Krasik, “Generation of supersonic jets from underwater electrical explosions of wire arrays”, Phys. Plasmas 28, 063509 (2021).
  4. Y. Cao, J. G. Leopold, Yu. P. Bliokh, G. Leibovitch, and Ya. E. Krasik, “Nonlinear absorption of high-power, microwave pulses in a plasma filled waveguide”, Phys. Plasmas 28, 062307 (2021).
  5. Y. Bliokh, J. G. Leopold, and Ya. E. Krasik, “Squeezed state of an electron cloud as a “quasi-neutral” one-component plasma”, Phys. Plasmas 28, 072106 (2021).
  6. J. G. Leopold, M. Siman-Tov, S. Pavlov, V. Goloborodko, Ya. E. Krasik, A. Kuskov, D. Andreev, and E. Schamiloglu, “Experimental and numerical study of a split cathode fed relativistic magnetron”, J. Appl. Phys. 130, 034501 (2021).
  7. S. Gleizer, D. Maler, E. Flyat, A. Rososhek, S. Efimov, J. Leopold, and Ya. E. Krasik, “Compact high-current pulse generator for laboratory studies of high energy density matter”, Rev. Sci. Instrum. 92, 023510 (2021).
  8. J. G. Leopold, Ya. E. Krasik, Y. Hadas and E. Schamiloglu, “An axial magnetron fed by a split cathode and magnetically insulated by a low power solenoid”, IEEE Trans. on Electron Devices 68, 5227 (2021)
  9. S. G. Chefranov and A. S. Chefranov, Exact solution to the main turbulence problem for a compressible medium and the universal -8/3 law turbulence spectrum of breaking waves, Phys. Fluids, 33,076108 (2021); Invited paper; https://doi.org/10.1063/5.0056291 
  10. S. G. Chefranov, Instability of cumulation in converging cylindrical shock wave,       Phys.   Fluids, 33, 096111 (2021); Invited paper; https://doi.org/10.1063/5.0065017

2022

  1. Ya. E. Krasik, J. G. Leopold, Y. Hadas, Y. Cao, S. Gleizer, E. Flyat, Y. P. Bliokh, D. Andreev, A. Kuskov, and E. Schamiloglu, “An advanced relativistic magnetron operating with a split cathode and separated anode segments”, J. Appl. Phys. 131, 023301 (2022).
  2. S. G. Chefranov, Ya. E. Krasik and A. Rososhek, “Limitation in velocity of converging shock wave”, Physics of Fluids” 34, 016101 (2022).
  3. S.G. Chefranov, Ya. Krasik, and A. Rososhek “Energy density balance during shock wave implosion in water”, Phys. Fluids 34, 014109 (2022).
  4. D. Maler, M. Kozlov, S. Efimov and Ya. E. Krasik, “Supersonic jet generation by underwater sub-microsecond electrical explosions of wire arrays”, Phys. Plasmas 29, 032705 (2022).
  5.  D. Maler, S. Efimov and Ya. E. Krasik, “Target acceleration by sub-microsecond underwater electrical explosions of wire arrays”, J. Appl. Phys. 131, 074902 (2022).
  6. D. Maler, S. Efimov,  M. Liverts,  S. Theocharous,  J. Strucka, Y. Yao, W. Proud,  A. Rack,  B. Lukic,  S. N. Bland, and  Ya. E. Krasik, “Peculiarities of planar shockwave interaction with air-water interface and solid target”, Phys. Plasmas 29, 063502 (2022).
  7. S. G. Cherfanov, and A. S. Chefranov, Universal turbulence scaling law -8/3 at fusion implosion, Phys. Fluids, 34, 036105 (2022); Invited paperhttps://doi.org/10.1063/5.0082164
  8. S. G. Chefranov, Riemann’s wave and an exact solution of the main turbulence problem, WRCM (Waves in Random and Complex Media), Accepted (2022); Invited paper;   http://mc.manuscriptcentral.com/twrm 
  9.  S. G. Chefranov and D. Maler, The cylindrical shock at the underwater explosion, arXiv:         2209.09622v1 [physics. flu-dyn] 9 Sep 2022; https://doi.org/10.48550/arXiv.2209.09622
  10.  S. G. Chefranov, Self-consistent equation of state for water behind the strong shockwave front, arXiv: 2203.16430v2 [physics.flu-dyn] 29 Sep 2022; Invited to Phys. Fluids;             https://doi.org/10.48550/arXiv.2203.16430

2023

1. J. G. Leopold, Y. Bliokh, Ya. E. Krasik, A. Kuskov, and E. Schamiloglu, “Diocotron and electromagnetic modes in split-cathode fed relativistic smooth bore and six-vane magnetrons”, Phys. Plasmas 30, 013104 (2023).2. V. Stelmashuk, A. Tuholukov Ya. E. Krasik, P. Hoffer, J. Schmidt, J. Straus, and A. Frolov, “Study of underwater discharge initiated by a high-voltage preliminary pulse produced by a Marx generator”, J. Appl. Phys. 133, 033301 (2023).3. D. Maler, R. Grikshtas, S. Efimov, L. Merzlikin, M. Liverts, M. Kozlov, and Ya. E. Krasik, “Supersonic water jets as point-like sources of extremely high pressure”, Phys. Plasmas 30, 022710 (2023).4. O. Belozerov, Ya. E. Krasik, J. G. Leopold, S. Pavlov, Y. Hadas, K. Kuchuk, and E. Schamiloglu, “Characterizing the high-power-microwaves radiated by an axial output compact S-band A6 segmented magnetron fed by a split cathode and powered by a linear induction accelerator”, J. Appl. Phys. 133, 133301 (2023).5. J. Strucka, B. Lukic, M. Koerner, J. W. D. Halliday, Y. Yao, K. Mughal, D. Maler, S. Efimov, J. Skidmore, A. Rack, Y. Krasik, J. Chittenden, and S. N. Bland, “Synchrotron radiography of Richtmyer–Meshkov instability driven by exploding wire arrays”, Phys. Fluids 35, 044108 (2023).6. Y. Cao, Y. P. Bliokh, V. Maksimov, J. G. Leopold, and Ya. E. Krasik, “Frequency conversion, “superluminal” propagation, and compression of a powerful microwave pulse in propagating ionization front”, Phys. Rev. E 107, 045203 (2023)

Invited Review Papers:

  1.  V. M. Bystritskii, Ya. E. Krasik, and G. A. Mesyats, High Power Ion Sources, Physics of Elementary Particles and Atomic Nuclei 22, 1171 (1991).
  2.  V. M. Bystritskii, A. A. Kim, Ya. E. Krasik, B. M. Koval’chuk, and G. A. Mesyats, Microsecond plasma opening switches, Physics of Elementary Particles and Atomic Nuclei, 23, 19 (1992).
  3.  G. Rosenman, D. Shur, Ya. E. Krasik, and A. Dunaevsky, Review – Ferroelectric cathodes, J. Appl. Phys. 88, 6109 (2000).
  4.  Ya. E. Krasik, K. Chirko, A. Dunaevsky, J. Felsteiner, A. Krokhmal, J. Gleizer, A. Sayapin, and J. Felsteiner, Ferroelectric plasma sources and their application, Special issue IEEE Trans. Plasma Sci. 31, 49 (2003).
  5. Ya. E. Krasik, A. Grinenko, A. Sayapin, S. Efimov, A. Fedotov, V. Tz. Gurovich, and V. I. Oreshkin, “Underwater Electrical Wire Explosion and its Applications”, IEEE Trans. Plasma Scie. 36, 423 (2008).
  6.  Ya. E. Krasik, J. Z. Gleizer, D. Yarmolich, V. Vekselman, Y. Hadas, and J. Felsteiner, “Plasma Emission Sources For High-Current Electron Beam Generation”, IEEE Trans. Plasma Scie. 36, 768 (2008).
  7.  Ya. E Krasik, A. Fedotov, D. Sheftman, S. Efimov, A. Sayapin, V. Tz. Gurovich, D. Veksler, G. Bazalitski, S. Gleizer, A. Grinenko and V. I. Oreshkin “Underwater electrical wire explosion’, Plasma Sources Sci. Techn. 19, 034020 (2010).
  8.  D. Levko, Ya. E. Krasik and V. Tarasenko, “Present Status of Runaway Electron Generation in Pressurized Gases During Nanosecond Discharges”, Intern. Rev. Phys. 6, 165 (2012).
  9.  T. Queller, J. Z. Gleizer, Ya. E. Krasik, V. A. Bernshtam, and U. Dai, “High-Current Carbon-Epoxy Capillary Cathode”, IEEE Trans. Plasma Scie. 42, 1224 (2014).
  10.  Ya. E. Krasik, S. Efimov, D. Sheftman, A. Fedotov-Gefen, O. Antonov, D. Shafer, D. Yanuka, M. Nitishinskiy, M. Kozlov, L. Gilburd, G. Toker, S. Gleizer, E. Zvulun, V. Tz. Gurovich, D Varentsov, and M. Rodionova, “Underwater Electrical Explosion of Wires and Wire Arrays and Generation of Converging Shock Waves,” IEEE Trans. Plasma Scie. 44, 412 (2016).
  11.  S. Yatom, A. Shlapakovski, L. Beilin, E. Stambulchik, S. Tskhai, and Ya. E. Krasik, “Recent studies on nanosecond-timescale pressurized gas discharges”, Plasma Sources Sci. Technol. 25 064001 (2016).

Invited Papers:

  1. R. Arad, R. E. H. Clark, G. Dagusc, G. Davara, R. E. Duvall, A. Fisher, V. Fisher, M. E. Food, A. Fruchtman, L. Gregorian, Ya. E. Krasik, C. Litwin, Y. Maron, L. Perelmutter, M. Sarfaty, E. Sarid, S. Shkolnikova, R. Shpitalnik, L. Troyansky, and A. Weingarten, Visible-light spectroscopy of pulsed – power plasmas, Rev. Sci. Instruments 63, 5127 (1992).
  2.  M. Sarfaty, R. Shpitalnik, R. Arad, A. Weingarten, Ya. E. Krasik, A. Fruchtman, and Y. Maron, Spectroscopic investigation of fast (ns) magnetic field penetration in a plasma opening switch, Phys. Plasmas 2, 2583 (1995).
  3. Ya. E. Krasik, A. Dunaevsky, J. Felsteiner, A. Krokhmal, C. Leibovitch, I. Schnitzer, A. Rosenberg, and J. Shiloh, Study of electron diode with a ferroelectric plasma cathode, IEEE Trans. Plasma Sci. 28, 1642 (2000).
  4. Ya. E. Krasik, A. Dunaevsky, and J. Felsteiner, Plasma sources for high-current electron beam generation, Phys. Plasmas 8, 2466 (2001).
  5.  Ya. E. Krasik, J. Z. Gleizer, A. Krokhmal, K. Chirko, A. Sayapin, J. Felsteiner, V. Bernshtam, and V. I. Gushenets, High-current electron sources based on gaseous discharges. Vacuum 77, 391 (2005).
  6. Ya. E. Krasik, J. Z. Gleizer, D. Yarmolich, V. Vekselman, Y. Hadas, A. Krokhmal, K. Chirko, O. Peleg and J. Felsteiner, Passive and active plasma emission sources for high-current electron beam generation, IEEJ Trans. Fundamentals and Materials 127, 697 (2007).
  7.  A. Grinenko, A. Sayapin, S. Efimov, A. Fedotov, and Ya. E. Krasik, Last progress in underwater electrical wire explosion. IEEJ Trans. Fundamentals and Materials 128, 547 (2008).
  8. Ya. E. Krasik, D. Yarmolich, J. Z. Gleizer, V. Vekselman, Y. Hadas, V. Tz. Gurovich, and J. Felsteiner, Pulsed Electron Sources, Phys. Plasma 16, 057103 (2009).

Chapters in textbooks

  1. S. Yatom, D. Levko, E. Stambulchik, S. Tshhai and Ya. E. Krasik, “Experimental and numerical research of runaway electron generation during nanosecond timescale duration electrical discharge in pressurized gases”, in Generation of Runaway electrons and X-rays in High-pressure gases, Editor V. Tarasenko, vol. 2, Chapter 1, Nova Science Publishers, Inc., 2016. ISBN: 978-1-63485-834-2.
  2. Y. Cao, Y. P. Bliokh, J. G. Leopold, and Ya. E. Krasik, “Wakes and Other Non-linear Effects Observed When Ultra-Short Ultra-High-Power Microwave Pulses Interact with Neutral Gas and Plasma”, in Shao, T., Zhang, C. (eds) “Pulsed Discharge Plasmas”, Springer Series in Plasma Science and Technology, Chapter 8, pp. 217 – 268 Springer, Singapore. 2023