Simulation Analysis of Carbon Deposition Profile in the Closed Helical Divertor Configuration in the Large Helical Device
Author:
Publisher
Wiley
Subject
Condensed Matter Physics
Reference14 articles.
1. Goal and Achievements of Large Helical Device Project
2. H. Kasahara 25th IAEA Fusion Energy Conf., Saint Petersburg, Russia (2014) EX/7-3.
3. Studies of dust transport in long pulse plasma discharges in the large helical device
4. Neutral Gas Compression in the Helical Divertor with a Baffle Structure in the LHD Heliotron
5. Study of a Closed Divertor Configuration for the Three-Dimensionally Complicated Magnetic Structure in the LHD Plasma Periphery
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2. Boron transport simulation using the ERO2.0 code for real-time wall conditioning in the large helical device;Nuclear Materials and Energy;2020-12
3. Investigation of dust shielding effect of intrinsic ergodic magnetic field line structures in the peripheral plasma in the large helical device;Contributions to Plasma Physics;2018-03-02
4. Simulation of impurity transport in the peripheral plasma due to the emission of dust in long pulse discharges on the Large Helical Device;Nuclear Materials and Energy;2017-08
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