List of selected publications of Yu.V.Sidelnikov

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1. Rowekamp P., Decker G., Kies W., Schulz A., Koshelev K.N., Sidelnikov Yu.V. K-spectra of micropinches in SPEED-2 with high spectral and temporal resolution. - AIP Conf.Proc.
2. Churilov S.S., Ivanov L.N., Sidelnikov Yu.V. Vacuum ultraviolet spectra of multiply ionized molybdenum at various exitation conditions. - Proceedings of conference the EGAS 9, Poland, 1977
3. Korneev V.V., Krutov V.V., Mandelstam S.L., Urnov A.M., Golts E.Ya., Kononov E.Ya., Sidelnikov Yu.V., Zhitnik I.A. Solar flare X-ray spectra. - Solar Phys., 1979, v.63, No.2, p.329-335.
4. Korop E.D., Meierovich B.E., Sidelnikov Yu.V., Sukhorukov S.T. Micropinch in a high - current diode. - Sov.Phys.Usp., 1979, v.22, p.727.
5. Kononov E.Ya., Koshelev K.N., Safronova U.I., Sidelnikov Yu.V., Churilov S.S. Spectroscopic measurements of the electron plasma density of the "hot spot" in a low-inductance vacuum spark. - JETP Lett., 1980, v.31, No.12, p.679-681.
6. Veretennikov V.A., Semenov O.G., Sidelnikov Yu.V. Experimental study of micropinch dynamics in a vacuum spark. - Proceedings XV Inter.Conf.Phenomena in Ionized Gases, Minsk, 1981, 1981, v.2, p.659-660.
7. Kononov E.Ya., Koshelev K.N., Sidelnikov Yu.V. X-ray spectroscopic diagnostics of micropinch in low inductance vacuum spark. - Proceedings XV Inter.Conf.Phenomena in Ionized Gases, Minsk, 1981, 1981, p.995-996.
8. Vikhrev V.V., Ivanov V.V., Koshelev K.N., Sidelnikov Yu.V. Contraction of plasma in a vacuum spark as a result of radiation losses. - Proc.X Contr.Fusion Plas., 1981, p.D6.
9. Sidelnikov Yu.V. Influence of plasms composition in a low-inductance vacuum spark on the parameters of a micropinch region. - Sov.J.Tech.Phys., 1982, v.52, No.11, p.2283-2284.
10. Kononov E.Ya., Koshelev K.N., Sidelnikov Yu.V. Radiative energy losses and heating in the low inductance vacuum spark. - Proc.VII IC-UVX-Ray Spectroscopy,Dublin, 1982
11. Alikhanov S.G., Vasil'ev V.I., Kononov E.Ya., Koshelev K.N., Sidelnikov Yu.V., Toporkov D.A. Formation of Micropinches in a high current linear Z pinch with pulsed gas injection. - Sov.J.Plasma Phys., 1984, v.10, No.5, p.605-608.
12. Kononov E.Ya., Koshelev K.N., Sidelnikov Yu.V. X-ray spectroscopic study of micropinches in a low-inductance vacuum spark. - Sov.J.Plasma Phys., 1985, v.11, No.8, p.538-543.
13. Koloshnikov G.V., Koshelev K.N., Sidelnikov Yu.V., Churilov S.S. Laser initiation of a low-inductance vacuum spark. - Sov.J.Plasma Phys., 1985, v.11, No.2, p.150-152.
14. Koshelev K.N., Sidelnikov Yu.V. A micropinch as a spectral source of highly ionized atoms. - Nucl.Inst.Meth.Phys.Res.B, 1985, v.9, No.212, p.704-705.
15. Sidelnikov Yu.V., Kononov E.Ya., Koshelev K.N. X-ray diagnostics of hot dense plasma in low-inductance vacuum spark. - Nucl.Inst.Meth.Phys.Res.B, 1985, v.9, No.212, p.724-726.
16. Golts E.Ya., Koloshnikov G.V., Koshelev K.N., Kramida A.E., Sidelnikov Yu.V., Vikhrev V.V., Ivanov V.V., Palkin A.A., Prut V.V. A high temperature micropinch in a discharge with a current of 1 MA. - Phys.Lett.A, 1986, v.115, No.3, p.114-116.
17. Golts E.Ya., Dorokhin L.A., Koshelev K.N., Kramida A.E., Palkin A.A., Sidelnikov Yu.V. A high temperature micropinch plasma as a spectral source of multiply charged ions in the region <0.1 nm. - Acta Physica Hungarica, 1987, v.61, No.1, p.17-18.
18. Golts E.Ya., Dorokhin L.A., Koshelev K.N., Kramida A.E., Palkin A.A., Sidelnikov Yu.V. A high temperature micropinch plasma as a spectral source of multiply charged ions in the region lambda <1 A. - Phys.Lett.A, 1987, v.119, No.7, p.359-360.
19. Koshelev K.N., Krauz V.I., Reshetniak N.G., Salukvadze R.G., Sidelnikov Yu.V., Khautiev E.Yu. The formation of the micropinch structure in plasma focus by addition of heavy impurities. - J.Phys.D, 1988, v.21, p.1827-1829.
20. Khautiev E.Yu., Krauz V.I., Reshetniak N.G., Salukvadze R.G., Batenyuk A.A., Chkhaidze A.Ch., Koshelev K.N., Sidelnikov Yu.V. Experimental studies of the plasma focus (part I ). - Proc.XII Pl.Phys.Contr.Fu, 1988, v.2, p.579-583.
21. Decker G., Kies W., Koshelev K.N., Malzig M., van Calker C., Ziethen G., Bluhm H., Rusch D., Ratajczak W., Sidelnikov Yu.V. Pinch formation in terawatt fiber experiments. - Proc.XVI European Conf.on Controlled Fusion & Plasma Phys., Venice, 1989, p.C2.
22. Koshelev K.N., Krauz V.I., Reshetniak N.G., Salukvadze R.G., Sidelnikov Yu.V., Khautiev E.Yu. Formation of micropinch structures in plasma-focus discharges with admixtures of heavyatoms. - Sov.J.Plasma Phys., 1989, v.15, No.9, p.619-624.
23. Churilov S.S., Dorokhin L.A., Koshelev K.N., Sidelnikov Yu.V. Intense line source in the extreme VUV based on the micropinch in the low inductance vacuum spark. - JQSRT, 1990, v.44, No.5&6, p.553-557.
24. Sopkin Yu. V., Dorokhin L.A., Koshelev K.N., Sidelnikov Yu.V. Dynamics of sausage instabilities of a gas-puff Z-pinch. - Phys.Lett.A, 1991, v.152, No.3&4, p.215-217.
25. Bayley J.M., Decker G., Kies W., Malzig M., Muller F., Rowekamp P., Westheide J., Sidelnikov Yu.V. Observation of soft X-ray production in SPEED 2 plasma focus. - J.Appl.Phys., 1991, v.69, No.2, p.613.
26. Koshelev K.N., Sidelnikov Yu.V., Churilov S.S., Dorokhin L.A. Charge/exchange of plasma beams from instabilities in axial discharges and population inversion in a highly charged ions. - Phys.Lett.A, 1994, v.191, No.1&2, p.149-154.
27. Koshelev K.N., Sidelnikov Yu.V., Decker G., Kies W., Malzig M., Rowekamp P., Rosmej F.B., Schulz A., Kunze H.-J. X-ray Spectroscopical Diagnostics of Nonstationary and Optically Dense High-Temperature Micropinch Plasma in the Fast Plasma Focus Discharge. - Opt.Spectrosc., 1994, v.76, No.2, p.198-202.
28. Rowekamp P., Decker G., Kies W., Bayley J.M., Koshelev K.N., Sidelnikov Yu.V., Rosmej F.B., Schulz A., Simanovskii D.M. Spectral investigation of micropinches in the SPEED 2 plasma focus. - AIP Conf.Proc., 1994, v.299, p.332-335.
29. Schmitz F., Rowekamp P., Decker G., Kies W., Zeiten G., Bayley J.M., Koshelev K.N., Sidelnikov Yu.V., Simanovskii D.M. Micropinch formation in the SPEED 2 plasma focus. - AIP Conf.Proc., 1994, v.299, p.355.
30. Antsiferov P.S., Rosmej F.B., Rosmej O. N., Schmidt H., Schulz D., Schulz A. X-Ray diagnostics of plasma focus DPF-78 with heavy-gas admixtures. - J. Appl. Phys., 1995, v.77, No.10, p.4973.
31. Decker G., Kies W., Nadolny R., Rowekamp P., Schmitz F., Ziethen G., Koshelev K.N., Sidelnikov Yu.V., Sopkin Yu. V. Micropinch actuation in the SPEED 2 plasma focus. - Plasma Sources Science & Technology, 1996, v.5, No. 1, p.112-118.
32. Koshelev K.N., Antsiferov P.S., Dorokhin L.A., Sidelnikov Yu.V. Stimulated VUV radiation from Z-pinch necks. - 4th Int.Conf.Dense Z-Pinches (Vancouver Canada 1997), 1997, p.303-306.
33. Engel A., Lebert R., Koshelev K.N., Sidelnikov Yu.V., Churilov S.S., Gavrilescu C., Neff W. Interaction of plasma jets produced from pinch plasma with neutral atoms in order to achieve an effective charge exchange table top X-laser. - 4th Int.Conf.Dense Z-Pinches (Vancouver Canada 1997), 1997, p.361-365.
34. Engel A., Lebert R., Koshelev K.N., Sidelnikov Yu.V., Gavrilescu C., Neff W. Transition from column to micropinch regime in Z-pinches. - 4th Int.Conf.Dense Z-Pinches (Vancouver Canada 1997), 1997, p.367-371.
35. Antsiferov P.S., Dorokhin L.A., Khautiev E.Yu., Sidelnikov Yu.V., Glushkov D.A., Lugovenko I.V., Koshelev K.N. Dynamics of a plasma in a capillary discharge driven by a plasma focus operated in the mode of a plasma switch opening. - J.Phys.D, 1998, v.31, No.16, p.2013-2017.
36. Engel A., Koshelev K.N., Sidelnikov Yu.V., Churilov S.S., Gavrilescu C., Lebert R. Population inversion due to charge-exchange interaction of plasma jets from plasma focus with residual gas. - Phys.Rev.E, 1998, v.58, No.6, p.7819-7822.
37. Khautiev E.Yu., Antsiferov P.S., Dorokhin L.A., Koshelev K.N., Sidelnikov Yu.V. Plasma focus as a current transfer for a capillary discharge. - Sov.J.Tech.Phys. 1998, v.68, No.11, p.110-113.
38. Kies W., Decker G., Berntien U., Sidelnikov Yu.V., Glushkov D.A., Koshelev K.N., Simanovskii D.M., Bobashev S.V. Stable pinch in the SPEED 2 plasma focus. - Techn.Phys.Lett., 1999, v.25, No.10, p.802-805.
39. Churilov S.S., Dorokhin L.A., Sidelnikov Yu.V., Koshelev K.N., Schulz A., Ralchenko Yu. Inverse Population of Multicharged Ion Level in a Z-Pinch Plasma as a Result of Interaction of Plasma Beams with Neutral and Low-Ionized Gas Target. - Contrib.Plasma Phys., 2000, v.40, No.1&2, p.167-172.
40. Kies W., Decker G., Berntien U., Sidelnikov Yu.V., Glushkov D.A., Koshelev K.N., Simanovskii D.M., Bobashev S.V. Pinch modes produces in the SPEED2 plasma focus. - Plasma Sources Science & Technology, 2000, v.9, No.3, p.279-287.
41. Antsiferov P.S., Churilov S.S., Dorokhin L.A., Koshelev K.N., Nazarenko A.V., Sidelnikov Yu.V. Analysis of high resolution Ar IX spectrum, excited in fast capillary discharge. - Phys.Scripta, 2000, v.62, No.2&3, p.127-131.
42. Kies W., Decker G., Berntien U., Sidelnikov Yu.V., Glushkov D.A., Koshelev K.N., Simanovskii D.M., Bobashev S.V. Pinch modes in the SPEED2 plasma focus. - Nukleonika, 2001, v.46, No.1, p.9-14.
43. Koshelev K.N., Antsiferov P.S., Dorokhin L.A., Nazarenko A.V., Sidelnikov Yu.V., Glushkov D.A. Observation of ASE effect for Ne-like Ar in a capillary discharge driven by inductive storage with plasma erosion opening switch. - J.Physique IV, 2001, v.11, No.2, p.119-122.
44. Nazarenko A.V., Antsiferov P.S., Dorokhin L.A., Koshelev K.N., Sidelnikov Yu.V. A driver of rapidly rising current pulses based on a semiconductor opening switch. - Instrum.& Exp.Techniques, 2003, v.46, No.1, p.54-56.
45. Soto L., Silva P., Moreno J., Silvester G., Zambra M., Pavez C., Altamirano L., Bruzzone H., Barbaglia M., Sidelnikov Yu.V., Kies W. Research on pinch plasma focus devices of hundred of kilojoules to tens of joules. - Brazil.J.Phys., 2004, v.34, No.4, p.B1814-1821.
46. Koshelev K.N., Kunze H.-J., Gayazov R.R., Gomozov V.A., Ivanov V.V., Koloshnikov V.G., Korop E.D., Krivtsun V.M., Sidelnikov Yu.V., Yakushev O.F., Zukakishvili G.G. Radiative Collapse in Z Pinches. - EUV Sources for Lithography, 2006, p.175-195.
47. Gielissen K., Sidelnikov Y., Soer W.A., Glushkov D., Banine V., Koshelev K.N., Mullen J.J.A.M. van der. Characterization of ion beam from an EUV emitting discharge plasma. - Physics@FOM, NH Koningshof Veldhoven, the Netherlands, 20-21 January 2009.
48. Gielissen K., Sidelnikov Y., Glushkov D., Soer W.A., Banine V., Mullen J.J.A.M. van der. Gated pinhole camera imaging of the high-energy ions emitted by a discharge produced Sn plasma for Extreme Ultraviolet generation. - J.Appl.Phys. 2009, v.106, 083301.
49. Antsiferov P.S., Dorokhin L.A., Sidelnikov Yu.V., Koshelev K.N. Fast discharge in a plasma gun with hemispherical insulator. J.Appl.Phys.., 2009, v.105, 103305.
50. Gielissen K., Sidelnikov Yu.V., Glushkov D., Soer W.A., Banine V., Van der Mullen J.J.A.M. Characterization of ion emission of an extreme ultraviolet generating discharge produced Sn plasma. - J.Appl.Phys., 2010, v.107, No.1, p.3301.
51. Antsiferov P.S., Dorokhin L.A., Sidelnikov Y.V. Plasma erosion opening switch for fast discharges with current growth rate about 10^12 A/s. - Instrum.Exp.Tech., 2011, v.54, No.2, p.187-189.
52. Tobin I., Juschkin L., Sidelnikov Yu.V., O'Reilly F., Sheridan P., Sokell E., Lunney J.G. Laser triggered Z-pinch broadband extreme ultraviolet source for metrology. - Appl.Phys.Lett., 2013, v.102, No.20, p.3504.
53. Vinokhodov A.Y., Krivokorytov M.S., Sidelnikov Yu.V., Krivtsun V.M., Medvedev V.V., Koshelev K.N. Droplet-based, high-brightness extreme ultraviolet laser plasma source for metrology. - J.Appl.Phys., 2016, v.120, No.16, p.3304.
54. Vinokhodov A., Krivokorytov M., Sidelnikov Yu.V., Krivtsun V., Medvedev V., Bushuev V., Koshelev K., Glushkov D., Ellwi S. Stable droplet generator for a high brightness laser produced plasma extreme ultraviolet source. - Rev.Sci.Instrum., 2016, v.87, No.10, p.3304.
55. Vinokhodov A.Y., Krivokorytov M.S., Sidelnikov Y.V., Krivtsun V.M., Medvedev V.V., Koshelev K.N. High-brightness EUV source based on laser plasma using a liquid-metal droplet target. - Quant. Electronics, 2016, v.46, No.5, p.473-480.
56. Vinokhodov A.Y., Koshelev K.N., Krivtsun V.N., Krivokorytov M.S., Sidelnikov Y.V., Medvedev V.V., Kompanets V.O., Melnikov A.A., Chekalin S.V. Formation of a fine-dispersed liquid-metal target under the action of femto-and picosecond laser pulses for a laser-plasma radiation source in the extreme ultraviolet range. - Quant. Electronics, 2016, v.46, No.1, p.23-28.
57. Krivokorytov M.S., Vinokhodov A.Y., Sidelnikov Y.V., Krivtsun V.M., Kompanets V.O., Lash A.A., Koshelev K.N., Medvedev V.V. Cavitation and spallation in liquid metal droplets produced by subpicosecond pulsed laser radiation. - Phys.Rev.E, 2017, v.95, No.3, p.1101.
58. Basko M.M., Krivokorytov M.S., Vinokhodov A.Y., Sidelnikov Y.V., Krivtsun V.M., Medvedev V.V., Kim D.A., Kompanets V.O., Lash A.A., Koshelev K.N. Fragmentation dynamics of liquid-metal droplets under ultra-short laser pulses. - Laser Phys.Lett., 2017, v.14, No.3, p.6001.
59. Grigoryev S.Y., Lakatosh B.V., Krivokorytov M.S., Zhakhovsky V.V., Dyachkov S.A., Ilnitsky D.K., Migdal K.P., Inogamov N.A., Vinokhodov A.Y., Kompanets V.O., Sidelnikov Y.V., Krivtsun V.M., Koshelev K.N., Medvedev V.V. Expansion and Fragmentation of a Liquid-Metal Droplet by a Short Laser Pulse. - Phys.Rev.Appl., 2018, v.10, No.6, p.4009.
60. Krivokorytov M.S., Zeng Q., Lakatosh B.V., Vinokhodov A.Y., Sidelnikov Y.V., Kompanets V.O., Krivtsun V.M., Koshelev K.N., Ohl C.D., Medvedev V.V. Shaping and Controlled Fragmentation of Liquid Metal Droplets through Cavitation. - Sci Rep, 2018, v.8, p.597.
61. Koshelev K., Vinokhodov A., Yakushev O., Yakushkin A., Abramenko D., Lash A., Krivokorytov M., Sidelnikov Y., Ivanov V., Krivtsun V., Medvedev V., Glushkov D., Seroglazov P., Ellwi S., Lebert R. Debris free high brightness ligth source based on LPP for actinic EUV microscopy and metrology applications. - Proc.of SPIE Conf.on EUV Lithography (EUVLS), 2018, v.10809.

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