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Journal Abstract Search

159 related items for PubMed ID: 32113383

  • 1. Coaxial semi-dipole antenna microwave feeding on electron cyclotron resonance multicharged ion source.
    Kubo W, Hamada K, Onishi K, Takeda T, Okumura K, Omori T, Ishihara M, Harisaki S, Kato Y.
    Rev Sci Instrum; 2020 Feb 01; 91(2):023317. PubMed ID: 32113383
    [Abstract] [Full Text] [Related]

  • 2. Microwave-accessibility conditions estimated by plasma parameters obtained experimentally on electron cyclotron resonance ion source.
    Kubo W, Harisaki S, Owada I, Sato K, Tsuda K, Kato Y.
    Rev Sci Instrum; 2021 Apr 01; 92(4):043514. PubMed ID: 34243422
    [Abstract] [Full Text] [Related]

  • 3. Accessibility condition of wave propagation and multicharged ion production in electron cyclotron resonance ion source plasma.
    Kato Y, Yano K, Nishiokada T, Nagaya T, Kimura D, Kumakura S, Imai Y, Hagino S, Otsuka T, Sato F.
    Rev Sci Instrum; 2016 Feb 01; 87(2):02A710. PubMed ID: 26931928
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  • 4. Experimental results of superimposing 9.9 GHz extraordinary mode microwaves on 2.45 GHz ECRIS plasma.
    Nishiokada T, Nagaya T, Hagino S, Otsuka T, Muramatsu M, Sato F, Kitagawa A, Kato Y.
    Rev Sci Instrum; 2016 Feb 01; 87(2):02A714. PubMed ID: 26931932
    [Abstract] [Full Text] [Related]

  • 5. Upper hybrid resonance heating experiments by X-mode microwaves on electron cyclotron resonance ion source.
    Kato Y, Nishiokada T, Hamada K, Onishi K, Takeda T, Okumura K, Omori T, Kubo W, Ishihara M, Harisaki S.
    Rev Sci Instrum; 2020 Jan 01; 91(1):013315. PubMed ID: 32012523
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  • 6. Multicharged iron ions produced by using induction heating vapor source.
    Kato Y, Kubo T, Muramatsu M, Tanaka K, Kitagawa A, Yoshida Y, Asaji T, Sato F, Iida T.
    Rev Sci Instrum; 2008 Feb 01; 79(2 Pt 2):02A312. PubMed ID: 18315102
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  • 7. Improving multipole magnets and background vacuum conditions on electron cyclotron resonance ion sources.
    Harisaki S, Onishi K, Hamada K, Takeda T, Okumura K, Omori T, Kubo W, Ishihara M, Kato Y.
    Rev Sci Instrum; 2020 Jan 01; 91(1):013308. PubMed ID: 32012560
    [Abstract] [Full Text] [Related]

  • 8. Modeling multiple-frequency electron cyclotron resonance heating.
    Spencer JA, Kim C, Kim JS, Evstatiev EG, Svidzinski V, Cluggish B.
    Rev Sci Instrum; 2014 Feb 01; 85(2):02A914. PubMed ID: 24593493
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  • 9. Glow plasma trigger for electron cyclotron resonance ion sources.
    Vodopianov AV, Golubev SV, Izotov IV, Nikolaev AG, Oks EM, Savkin KP, Yushkov GY.
    Rev Sci Instrum; 2010 Feb 01; 81(2):02A305. PubMed ID: 20192326
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  • 13. The effect of cavity tuning on oxygen beam currents of an A-ECR type 14 GHz electron cyclotron resonance ion source.
    Tarvainen O, Orpana J, Kronholm R, Kalvas T, Laulainen J, Koivisto H, Izotov I, Skalyga V, Toivanen V.
    Rev Sci Instrum; 2016 Sep 01; 87(9):093301. PubMed ID: 27782615
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  • 14. Wall-loss distribution of charge breeding ions in an electron cyclotron resonance ion source.
    Jeong SC, Oyaizu M, Imai N, Hirayama Y, Ishiyama H, Miyatake H, Niki K, Okada M, Watanabe YX, Otokawa Y, Osa A, Ichikawa S.
    Rev Sci Instrum; 2011 Mar 01; 82(3):033508. PubMed ID: 21456738
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  • 15. Study of hydrogen ECR plasma in a simple mirror magnetic trap heated by 75 GHz pulsed gyrotron radiation.
    Skalyga VA, Izotov IV, Sidorov AV, Golubev SV, Razin SV.
    Rev Sci Instrum; 2017 Mar 01; 88(3):033503. PubMed ID: 28372417
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  • 16. Towards a better comprehension of plasma formation and heating in high performances electron cyclotron resonance ion sources (invited).
    Mascali D, Gammino S, Celona L, Ciavola G.
    Rev Sci Instrum; 2012 Feb 01; 83(2):02A336. PubMed ID: 22380183
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  • 18. Operation of the CAPRICE electron cyclotron resonance ion source applying frequency tuning and double frequency heating.
    Maimone F, Tinschert K, Celona L, Lang R, Mäder J, Rossbach J, Spädtke P.
    Rev Sci Instrum; 2012 Feb 01; 83(2):02A304. PubMed ID: 22380151
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