Neutron measurements at the ELISE neutral beam test facility and implications for neutron based diagnostics at SPIDER

Plasma and beam diagnostic methods for high-current-density negative ion sources are reviewed. The pulse laser–induced photodetachment method was widely used to measure negative ion density in the ion source plasma. The method was used to understand fundamental processes of negative hydrogen (H−) ion formation and destruction in hydrogen plasmas. Species composition and plasma parameters in H− ion sources can be estimated from optical emission spectroscopy data, while electrostatic probes are utilized to obtain local plasma parameters in the ion source. Plasma transport toward the extractor is studied by combining a laser beam for photodetachment and a structured electrostatic probe to visualize a flow pattern of H− ions. Spatial distributions of large-area H− ion beams are monitored by infrared thermography images, showing interactions among multiple beamlets. These diagnostic methods deepen the understanding of how H− ions are produced and extracted through beam-forming apertures. The acquired knowledge on ion source plasma and beam transport improves the ion source design of the next-generation H− ion sources for fusion experiments and accelerators. The essence of research and development for negative ion source study is summarized through briefly tracing the history.

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Neutron measurements at the ELISE neutral beam test facility and implications for neutron based diagnostics at SPIDER

Cited by 2 publications

References 21 publications

Neutron characterization analysis of the negative ion-based neutral beam verification facility for CFETR

Neutron characterization analysis of the negative ion-based neutral beam verification facility for CFETR

A review of diagnostic techniques for high-intensity negative ion sources

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