D. N. Seleznev scite author profile

D. N. Seleznev

5Publications

12Citation Statements Received

7Citation Statements Given

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Affiliations

Kurchatov Institute, Institute for Theoretical and Experimental Physics, Plasma (Russia)

Publications

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Ion sources for energy extremes of ion implantation (invited)

Hershcovitch

Johnson

Batalin

et al. 2008

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For the past four years a joint research and development effort designed to develop steady state, intense ion sources has been in progress with the ultimate goal to develop ion sources and techniques that meet the two energy extreme range needs of meV and hundreads of eV ion implanters. This endeavor has already resulted in record steady state output currents of high charge state of antimony and phosphorus ions: P(2+) [8.6 pmA (particle milliampere)], P(3+) (1.9 pmA), and P(4+) (0.12 pmA) and 16.2, 7.6, 3.3, and 2.2 pmA of Sb(3+)Sb(4+), Sb(5+), and Sb(6+) respectively. For low energy ion implantation, our efforts involve molecular ions and a novel plasmaless/gasless deceleration method. To date, 1 emA (electrical milliampere) of positive decaborane ions was extracted at 10 keV and smaller currents of negative decaborane ions were also extracted. Additionally, boron current fraction of over 70% was extracted from a Bernas-Calutron ion source, which represents a factor of 3.5 improvement over currently employed ion sources.

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Rhenium ion beam for implantation into semiconductors

Kulevoy

Герасименко

Seleznev

et al. 2012

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At the ion source test bench in Institute for Theoretical and Experimental Physics the program of ion source development for semiconductor industry is in progress. In framework of the program the Metal Vapor Vacuum Arc ion source for germanium and rhenium ion beam generation was developed and investigated. It was shown that at special conditions of ion beam implantation it is possible to fabricate not only homogenous layers of rhenium silicides solid solutions but also clusters of this compound with properties of quantum dots. At the present moment the compound is very interesting for semiconductor industry, especially for nanoelectronics and nanophotonics, but there is no very developed technology for production of nanostructures (for example quantum sized structures) with required parameters. The results of materials synthesis and exploration are presented.

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Electron-beam enhancement of the metal vapor vacuum arc ion source

Batalin

Бугаев

Gushenets

et al. 2002

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We report detailed investigations of the electron-beam metal vapor vacuum arc (E-MEVVA) ion source. The experiments were performed in Moscow and Tomsk with nearly the same design of ion sources. We recently reported the first conclusive demonstration of electron-beam enhancement of MEVVA performance using lead and bismuth cathodes, which yielded maximum ion charge states of Pb7+ and Bi8+ for E-MEVVA, as compared to Pb2+ and Bi2+ for conventional MEVVA operation. In this article we report extensive results for additional cathode materials, further details of the Moscow and Tomsk ion sources, and a discussion of electron beam effects on E-MEVVA performance. These results can be considered as a proof of the E-MEVVA principle.

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Research and design of a new RFQ injector for modernization of the LU-20 drift-tube linac

Гусарова

Dyubkov

Polozov

et al. 2016

Phys. Part. Nuclei Lett.

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Quarter-Wave buncher for NICA project

Trushin

Fatkullin

Sitnikov

et al. 2017

J. Phys.: Conf. Ser.

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D. N. Seleznev

Ion sources for energy extremes of ion implantation (invited)

Rhenium ion beam for implantation into semiconductors

Electron-beam enhancement of the metal vapor vacuum arc ion source

Research and design of a new RFQ injector for modernization of the LU-20 drift-tube linac

Quarter-Wave buncher for NICA project

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