Super H-mode: Difference between revisions
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m (Created page with "== LNF - Nationally funded project == '''Title''': '''Iones ligeros y radiación en materiales para fusión (IONFUS V)''' '''Reference''': PID2019-105325RB-C31 '''Area/subarea''': Energía y Transporte / Energía '''Principal Investigator(s)''': Rafael Vila Vazquez '''Project type''': Proyecto coordinado desde el Ciemat con las universidades Carlos III y Politécnica de Madrid '''Start-end dates''': 01/06/2020 - 31/08/2023 '''Financing granted (direct costs)''': -...") |
m (Description of project L2HPED: Estudio de Transiciones L-H y Pedestal en Modo H en Tokamaks, Study of L-H transitions and H-mode pedestal in tokamaks) |
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Super H-mode is a regime of tokamak operation wherein the [[pedestal]] height (and therefore fusion performance) is substantially higher than in standard H-mode operation. It was predicted using the [[EPED]] model for the pedestal height and then experimentally confirmed on the [[:Wikipedia:DIII-D (tokamak)|DIII-D tokamak]],<ref name=snyder_2015_nf>[[doi:10.1088/0029-5515/55/8/083026|P. B. Snyder, et al., Nucl. Fusion 55, 083026 (2015)]]</ref> followed by reproduction on Alcator C-Mod.<ref name=snyder_2019_nf>[[doi:10.1088/1741-4326/ab235b|P. B. Snyder, et al., Nucl. Fusion 59, 086017 (2019)]]</ref> | Super [[H-mode]] is a regime of [[tokamak]] operation wherein the [[pedestal]] height (and therefore fusion performance) is substantially higher than in standard H-mode operation. It was predicted using the [[EPED]] model for the pedestal height and then experimentally confirmed on the [[:Wikipedia:DIII-D (tokamak)|DIII-D tokamak]],<ref name=snyder_2015_nf>[[doi:10.1088/0029-5515/55/8/083026|P. B. Snyder, et al., Nucl. Fusion 55, 083026 (2015)]]</ref> followed by reproduction on Alcator C-Mod.<ref name=snyder_2019_nf>[[doi:10.1088/1741-4326/ab235b|P. B. Snyder, et al., Nucl. Fusion 59, 086017 (2019)]]</ref> | ||
[[File:Snyder_2015_nf_fig6_superh.png]] | [[File:Snyder_2015_nf_fig6_superh.png]] | ||
Latest revision as of 13:16, 15 October 2023
Super H-mode is a regime of tokamak operation wherein the pedestal height (and therefore fusion performance) is substantially higher than in standard H-mode operation. It was predicted using the EPED model for the pedestal height and then experimentally confirmed on the DIII-D tokamak,[1] followed by reproduction on Alcator C-Mod.[2]
