Formation of High-Power Pulsed Titanium Ion Beams of Submillisecond Duration from Vacuum Arc Plasma
A method is proposed for improving the performance properties of various materials, based on the synergy of high-intensity ion implantation and simultaneous energy impact on the surface, aimed at creating deep ionalloyed layers. Its implementation requires the use of repetitively-pulsed high-power d...
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| Published in | Russian physics journal Vol. 65; no. 11; pp. 1940 - 1946 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
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Springer International Publishing
01.03.2023
Springer Springer Nature B.V |
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| Abstract | A method is proposed for improving the performance properties of various materials, based on the synergy of high-intensity ion implantation and simultaneous energy impact on the surface, aimed at creating deep ionalloyed layers. Its implementation requires the use of repetitively-pulsed high-power density beams of metal and gas ions of submillisecond durations. This article presents the results of experimental studies on forming pulsed high-intensity titanium ion beams from vacuum arc plasma. The effect of the cell size of the grid electrode, shaped as a part of a sphere, on the focusing and transport efficiency is studied. A possibility of ballistic focusing of a titanium ion beam with a pulse duration from 150 to 500 μs and a power density of up to 100 kW/cm
2
is experimentally shown. |
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| AbstractList | A method is proposed for improving the performance properties of various materials, based on the synergy of high-intensity ion implantation and simultaneous energy impact on the surface, aimed at creating deep ion-alloyed layers. Its implementation requires the use of repetitively-pulsed high-power density beams of metal and gas ions of submillisecond durations. This article presents the results of experimental studies on forming pulsed high-intensity titanium ion beams from vacuum arc plasma. The effect of the cell size of the grid electrode, shaped as a part of a sphere, on the focusing and transport efficiency is studied. A possibility of ballistic focusing of a titanium ion beam with a pulse duration from 150 to 500 [micro]s and a power density of up to 100 kW/[cm.sup.2] is experimentally shown. Keywords: ion beam formation, plasma immersion, vacuum arc, plasma. A method is proposed for improving the performance properties of various materials, based on the synergy of high-intensity ion implantation and simultaneous energy impact on the surface, aimed at creating deep ionalloyed layers. Its implementation requires the use of repetitively-pulsed high-power density beams of metal and gas ions of submillisecond durations. This article presents the results of experimental studies on forming pulsed high-intensity titanium ion beams from vacuum arc plasma. The effect of the cell size of the grid electrode, shaped as a part of a sphere, on the focusing and transport efficiency is studied. A possibility of ballistic focusing of a titanium ion beam with a pulse duration from 150 to 500 μs and a power density of up to 100 kW/cm2 is experimentally shown. A method is proposed for improving the performance properties of various materials, based on the synergy of high-intensity ion implantation and simultaneous energy impact on the surface, aimed at creating deep ionalloyed layers. Its implementation requires the use of repetitively-pulsed high-power density beams of metal and gas ions of submillisecond durations. This article presents the results of experimental studies on forming pulsed high-intensity titanium ion beams from vacuum arc plasma. The effect of the cell size of the grid electrode, shaped as a part of a sphere, on the focusing and transport efficiency is studied. A possibility of ballistic focusing of a titanium ion beam with a pulse duration from 150 to 500 μs and a power density of up to 100 kW/cm 2 is experimentally shown. |
| Audience | Academic |
| Author | Dektyarev, S. V. Vakhrushev, D. O. Korneva, O. S. Ryabchikov, A. I. |
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| Cites_doi | 10.1016/j.surfcoat.2019.05.020 10.1016/j.surfcoat.2020.125561 10.1016/j.surfcoat.2020.125557 10.1063/1.1142900 10.1063/1.2171674 10.1016/j.surfcoat.2018.02.110 10.1109/TPS.2021.3073942 10.1134/S2075113313030118 |
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| References | Surface Modification and Alloying by Laser, Ion, and Electron Beams (Eds. J. M. Poate, G. Foti, and D. C. Jacobson), Springer, Berlin (2013). V. A. Shulov et al., Inorgan. Mater., Appl. Res., 4(3), 189 (2013). A. A. Plyutto, Zh. Tekh. Eksp. Fiz., 39, Iss. 6, 1589 (1960). Ion Implantation and Beam Processing (Eds. J. S. Williams and J. M. Poate), Acadmic, Orlando (1984). RyabchikovAISurf. Coat. Technol.201835512910.1016/j.surfcoat.2018.02.110 RyabchikovAIRev. Sci. Instrum.200677303B51610.1063/1.2171674 RyabchikovAISurf. Coat. Technol.202038810.1016/j.surfcoat.2020.125557 RyabchikovAIIEEE Trans. Plasma Sci.202149925292021ITPS...49.2529R10.1109/TPS.2021.3073942 KovalTVJ. Phys.: Conf. Ser.2007032018 RyabchikovAISurf. Coat. Technol.202038810.1016/j.surfcoat.2020.125561 Handbook of Plasma Immersion Ion Implantation and Deposition (Ed. A. Anders), John Wiley & Sons, New York (2000). D. J. Rej et al., J. Vac. Sci. Technol. A. Vac., Surf., Films, 15(3), 1089 (1997). RyabchikovAIRev. Sci. Instrum.199263424281992RScI...63.2428R10.1063/1.1142900 RyabchikovAISurf. Coat. Technol.2019372110.1016/j.surfcoat.2019.05.020 2854_CR13 TV Koval (2854_CR14) 2007; 03 AI Ryabchikov (2854_CR7) 2020; 388 AI Ryabchikov (2854_CR8) 2018; 355 AI Ryabchikov (2854_CR11) 2021; 49 2854_CR2 2854_CR1 2854_CR4 2854_CR3 2854_CR6 AI Ryabchikov (2854_CR12) 2006; 77 AI Ryabchikov (2854_CR10) 2019; 372 AI Ryabchikov (2854_CR5) 1992; 63 AI Ryabchikov (2854_CR9) 2020; 388 |
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| SubjectTerms | Condensed Matter Physics Hadrons Heavy Ions Ion beams Ion implantation Lasers Mathematical and Computational Physics Nuclear Physics Optical Devices Optics Photonics Physics Physics and Astronomy Pulse duration Theoretical Titanium |
| Title | Formation of High-Power Pulsed Titanium Ion Beams of Submillisecond Duration from Vacuum Arc Plasma |
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