2019
DOI: 10.1088/1741-4326/ab14bc
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Energetic ion confinement studies using comprehensive neutron diagnostics in the Large Helical Device

Abstract: Understanding of energetic particle (EP) confinement is one of the critical issues in realizing fusion reactor. In stellarator/helical devices, the research on EP confinement is one of the key topics to obtain better confinement by utilizing the flexibility of three-dimensional magnetic field. Study of EP transport in the Large Helical Device (LHD) has been performed by means of escaping EP diagnostics in hydrogen plasma operation. By starting deuterium operation of the LHD, confinement study of EPs has progre… Show more

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Cited by 53 publications
(56 citation statements)
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“…Variation between the configurations for the DT fusion rates are smaller than for the DD fusion rates, and the triton burn-up ratio was approximately 0.2 % in all of the configurations. Measurements with a SciFi detector at the LHD heliotron have yielded triton burn-up ratios in the same order of magnitude, between 0.05 % to 0.45 % [25]. The constant burnup ratio implies that the DT fusion rate is mainly determined by the triton slowing-down distribution and consequently effected by the triton confinement properties.…”
Section: Dt Fusion Ratesmentioning
confidence: 93%
“…Variation between the configurations for the DT fusion rates are smaller than for the DD fusion rates, and the triton burn-up ratio was approximately 0.2 % in all of the configurations. Measurements with a SciFi detector at the LHD heliotron have yielded triton burn-up ratios in the same order of magnitude, between 0.05 % to 0.45 % [25]. The constant burnup ratio implies that the DT fusion rate is mainly determined by the triton slowing-down distribution and consequently effected by the triton confinement properties.…”
Section: Dt Fusion Ratesmentioning
confidence: 93%
“…Confinement improvement that has been identified in LHD deuterium experiments should widen the scope of the operation. Quantitative assessment for start-up scenarios reaching such an identified Neutrons produced in deuterium plasmas in conjunction with a well-prepared set of neutron diagnostics [15] (e.g., neutron emission rate and triton burn-up ratio) have provided the capacity for the quantitative assessment of the energetic particles' confinement property [16,17] and their interaction with MHD modes [18,19] in LHD plasmas.…”
Section: Conceptual Design Of the Lhd-type Helical Fusion Reactor Ffhmentioning
confidence: 99%
“…Studying the energetic neutrons from the deuteron-triton (DT) reaction, called triton burn-up, allows to infer the confinement and slowing-down properties of the tritons, which was done in, for example, the ASDEX Upgrade, JET, PDX, PLT, and TFTR tokamaks as well as recently in the LHD heliotron. [5][6][7][8][9][10] Since the -particles and tritons are both emitted isotropically and have similar gyroradii at their production energies, predictions of the -particle confinement can be assessed, which is of major interest for future fusion reactors. [5] These fast ions are meant to be the main heating source in burning DT fusion plasmas.…”
mentioning
confidence: 99%
“…[11] Recently, similar detectors were operated at LHD, yielding reasonable statistics for 14 MeV neutron rates above 10 12 s −1 . [10,[15][16][17][18][19] In order to study the capability of SciFi at W7-X, a one-dimensional diffusionless estimation has been developed that does not take losses into account explicitly.…”
mentioning
confidence: 99%