2015
DOI: 10.1063/1.4934846
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Effect of high energy electrons on H− production and destruction in a high current DC negative ion source for cyclotron

Abstract: Recently, a filament driven multi-cusp negative ion source has been developed for proton cyclotrons in medical applications. In this study, numerical modeling of the filament arc-discharge source plasma has been done with kinetic modeling of electrons in the ion source plasmas by the multi-cusp arc-discharge code and zero dimensional rate equations for hydrogen molecules and negative ions. In this paper, main focus is placed on the effects of the arc-discharge power on the electron energy distribution function… Show more

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Cited by 4 publications
(5 citation statements)
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“…As discussed below, the non-equilibrium features of the EEDF are very important for the both volume and surface H − production. [17,18,64,65] Here, we focus on the modeling of Cs-free H − VP. As mentioned in section 1, the H − VP is mainly through the following two step processes, (1) the production of vibrationally excited H 2 (v) molecules (EV process) by fast energetic electrons (E>20 eV), and (2) H − production (DA process) by slow electrons (E<1 eV).…”
Section: Modeling Of Multi-cusp Arc-discharge Sourcesmentioning
confidence: 99%
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“…As discussed below, the non-equilibrium features of the EEDF are very important for the both volume and surface H − production. [17,18,64,65] Here, we focus on the modeling of Cs-free H − VP. As mentioned in section 1, the H − VP is mainly through the following two step processes, (1) the production of vibrationally excited H 2 (v) molecules (EV process) by fast energetic electrons (E>20 eV), and (2) H − production (DA process) by slow electrons (E<1 eV).…”
Section: Modeling Of Multi-cusp Arc-discharge Sourcesmentioning
confidence: 99%
“…The dependence on other parameters (e.g. arc power P arc , arc current I arc , magnetic filter field strength, B filter ) has been also studied and discussed in detail in [18,64,65]. Figure 1 shows a schematic drawing of the SHI H − source.…”
Section: Compact H − Sources For Medical Applicationsmentioning
confidence: 99%
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“…The Electron Energy Distribution Function (EEDF) in space was analyzed using a KEIO-MARC (kinetic model of electrons in ion source with multi-cusp ARC discharge) code [22][23][24][25][26]. KEIO-MARC has been used to estimate the H − production rate in a negative ion source called an SHI H − ion source [27,28] and improve the performance of a JT-60SA negative ion source [29] and for comparison with the results of spectroscopic measurements taken from a QST (National Institute of Quantum and Radiological Science and Technology, Naka, Japan ) 10-ampere ion source [30].…”
Section: Calculation Of Electron Energy Distribution Functionmentioning
confidence: 99%
“…Development of the Negative hydrogen ion (H-) sources is essential due to its wide range of applications, such as a fusion plasma heating [1,2], the medical use [3,4] and the accelerator for the high-energy particle physics [5]. In these applications, the common requirements for development of negative ion sources are to produce the high current negative ion beam with good beam optics and suppress the co-extracted electron current, simultaneously.…”
Section: Introductionmentioning
confidence: 99%