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PUBMED FOR HANDHELDS

Journal Abstract Search


249 related items for PubMed ID: 20192327

  • 1. Bio-Nano ECRIS: an electron cyclotron resonance ion source for new materials production.
    Uchida T, Minezaki H, Tanaka K, Muramatsu M, Asaji T, Kato Y, Kitagawa A, Biri S, Yoshida Y.
    Rev Sci Instrum; 2010 Feb; 81(2):02A306. PubMed ID: 20192327
    [Abstract] [Full Text] [Related]

  • 2. Two-chamber configuration of Bio-Nano electron cyclotron resonance ion source for fullerene modification.
    Uchida T, Rácz R, Muramatsu M, Kato Y, Kitagawa A, Biri S, Yoshida Y.
    Rev Sci Instrum; 2016 Feb; 87(2):02A720. PubMed ID: 26931938
    [Abstract] [Full Text] [Related]

  • 3. Study on the beam transport from the Bio-Nano ECRIS.
    Uchida T, Minezaki H, Oshima K, Racz R, Muramatsu M, Asaji T, Kitagawa A, Kato Y, Biri S, Yoshida Y.
    Rev Sci Instrum; 2012 Feb; 83(2):02B713. PubMed ID: 22380318
    [Abstract] [Full Text] [Related]

  • 4. Improvement of efficiency and temperature control of induction heating vapor source on electron cyclotron resonance ion source.
    Takenaka T, Kiriyama R, Muramatsu M, Kitagawa A, Uchida T, Kurisu Y, Nozaki D, Yano K, Yoshida Y, Sato F, Kato Y, Iida T.
    Rev Sci Instrum; 2012 Feb; 83(2):02A327. PubMed ID: 22380174
    [Abstract] [Full Text] [Related]

  • 5. Status of the Bio-Nano electron cyclotron resonance ion source at Toyo University.
    Uchida T, Minezaki H, Ishihara S, Muramatsu M, Rácz R, Asaji T, Kitagawa A, Kato Y, Biri S, Drentje AG, Yoshida Y.
    Rev Sci Instrum; 2014 Feb; 85(2):02C317. PubMed ID: 24593654
    [Abstract] [Full Text] [Related]

  • 6. Producing multicharged fullerene ion beam extracted from the second stage of tandem-type ECRIS.
    Nagaya T, Nishiokada T, Hagino S, Uchida T, Muramatsu M, Otsuka T, Sato F, Kitagawa A, Kato Y, Yoshida Y.
    Rev Sci Instrum; 2016 Feb; 87(2):02A723. PubMed ID: 26931941
    [Abstract] [Full Text] [Related]

  • 7. Effect of pulse-modulated microwaves on fullerene ion production with electron cyclotron resonance ion source.
    Asaji T, Uchida T, Minezaki H, Oshima K, Racz R, Muramatsu M, Biri S, Kitagawa A, Kato Y, Yoshida Y.
    Rev Sci Instrum; 2012 Feb; 83(2):02A303. PubMed ID: 22380150
    [Abstract] [Full Text] [Related]

  • 8. Induction heating pure vapor source of high temperature melting point materials on electron cyclotron resonance ion source.
    Kutsumi O, Kato Y, Matsui Y, Kitagawa A, Muramatsu M, Uchida T, Yoshida Y, Sato F, Iida T.
    Rev Sci Instrum; 2010 Feb; 81(2):02A322. PubMed ID: 20192343
    [Abstract] [Full Text] [Related]

  • 9. The compact electron cyclotron resonance ion source KeiGM for the carbon ion therapy facility at Gunma University.
    Muramatsu M, Kitagawa A, Drentje AG, Hojo S, Ueda T, Miyazaki H, Yusa K, Tashiro M, Torikai K, Sakama M, Kanai T, Yamada S.
    Rev Sci Instrum; 2010 Feb; 81(2):02A327. PubMed ID: 20192348
    [Abstract] [Full Text] [Related]

  • 10. Fullerene-rare gas mixed plasmas in an electron cyclotron resonance ion source.
    Asaji T, Ohba T, Uchida T, Minezaki H, Ishihara S, Racz R, Muramatsu M, Biri S, Kitagawa A, Kato Y, Yoshida Y.
    Rev Sci Instrum; 2014 Feb; 85(2):02A936. PubMed ID: 24593515
    [Abstract] [Full Text] [Related]

  • 11. The electron cyclotron resonance ion source with arc-shaped coils concept (invited).
    Koivisto H, Suominen P, Tarvainen O, Spädtke P.
    Rev Sci Instrum; 2012 Feb; 83(2):02A312. PubMed ID: 22380159
    [Abstract] [Full Text] [Related]

  • 12. Design of a compact, permanent magnet electron cyclotron resonance ion source for proton and H2(+) beam production.
    Jia X, Zhang T, Luo S, Wang C, Zheng X, Yin Z, Zhong J, Wu L, Qin J.
    Rev Sci Instrum; 2010 Feb; 81(2):02A321. PubMed ID: 20192342
    [Abstract] [Full Text] [Related]

  • 13. New superconducting electron cyclotron resonance ion source for RIKEN RI beam factory project.
    Nakagawa T, Kidera M, Higurashi Y, Ohonishi J, Goto A, Yano Y.
    Rev Sci Instrum; 2008 Feb; 79(2 Pt 2):02A327. PubMed ID: 18315117
    [Abstract] [Full Text] [Related]

  • 14. Characterization of plasma parameters, first beam results, and status of electron cyclotron resonance source.
    Jain SK, Jain A, Hannurkar PR, Kotaiah S.
    Rev Sci Instrum; 2007 May; 78(5):053301. PubMed ID: 17552812
    [Abstract] [Full Text] [Related]

  • 15. Model for the description of ion beam extraction from electron cyclotron resonance ion sources.
    Spädtke P.
    Rev Sci Instrum; 2010 Feb; 81(2):02B725. PubMed ID: 20192465
    [Abstract] [Full Text] [Related]

  • 16. Dependence of ion beam current on position of mobile plate tuner in multi-frequencies microwaves electron cyclotron resonance ion source.
    Kurisu Y, Kiriyama R, Takenaka T, Nozaki D, Sato F, Kato Y, Iida T.
    Rev Sci Instrum; 2012 Feb; 83(2):02A310. PubMed ID: 22380157
    [Abstract] [Full Text] [Related]

  • 17. Controlling precise magnetic field configuration around electron cyclotron resonance zone for enhancing plasma parameters and beam current.
    Yano K, Kurisu Y, Nozaki D, Kimura D, Imai Y, Kumakura S, Sato F, Kato Y, Iida T.
    Rev Sci Instrum; 2014 Feb; 85(2):02A937. PubMed ID: 24593516
    [Abstract] [Full Text] [Related]

  • 18. Low energy Fe+ beam irradiation to C60 thin film.
    Minezaki H, Oshima K, Uchida T, Muramatsu M, Asaji T, Kitagawa A, Kato Y, Biri S, Yoshida Y.
    Rev Sci Instrum; 2012 Feb; 83(2):02A346. PubMed ID: 22380193
    [Abstract] [Full Text] [Related]

  • 19. Application of compact electron cyclotron resonance ion source.
    Muramatsu M, Kitagawa A, Iwata Y, Ogawa H, Hojo S, Kubo T, Kato Y, Biri S, Fekete E, Yoshida Y, Drentje AG.
    Rev Sci Instrum; 2008 Feb; 79(2 Pt 2):02A328. PubMed ID: 18315118
    [Abstract] [Full Text] [Related]

  • 20. Electron energy distribution function by using probe method in electron cyclotron resonance multicharged ion source.
    Kumakura S, Kurisu Y, Kimura D, Yano K, Imai Y, Sato F, Kato Y, Iida T.
    Rev Sci Instrum; 2014 Feb; 85(2):02A925. PubMed ID: 24593504
    [Abstract] [Full Text] [Related]


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