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Main Authors: Guizzo, Sophia, Drabinskiy, Mikhail A., Hansen, Christopher, Kachkin, Aleksandr G., Khairutdinov, Eduard N., Nelson, Andrew O., Nurgaliev, Maxim R., Pharr, Matthew, Subbotin, Georgy F., Paz-Soldan, Carlos
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.14682
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author Guizzo, Sophia
Drabinskiy, Mikhail A.
Hansen, Christopher
Kachkin, Aleksandr G.
Khairutdinov, Eduard N.
Nelson, Andrew O.
Nurgaliev, Maxim R.
Pharr, Matthew
Subbotin, Georgy F.
Paz-Soldan, Carlos
author_facet Guizzo, Sophia
Drabinskiy, Mikhail A.
Hansen, Christopher
Kachkin, Aleksandr G.
Khairutdinov, Eduard N.
Nelson, Andrew O.
Nurgaliev, Maxim R.
Pharr, Matthew
Subbotin, Georgy F.
Paz-Soldan, Carlos
contents Negative triangularity (NT) tokamak configurations have several key benefits including sufficient core confinement, improved power handling, and reduced edge pressure gradients that allow for edge-localized mode (ELM) free operation. We present the design of a compact NT device for testing sophisticated simulation and control software, with the aim of demonstrating NT controllability and informing power plant operation. The TokaMaker code is used to develop the basic electromagnetic system of the $R_0$ = 1 m, $a$ = 0.27 m, $B_t$ = 3 T, $I_p$ = 0.75 MA tokamak. The proposed design utilizes eight poloidal field coils with maximum currents of 1 MA to achieve a wide range of plasma geometries with $-0.7 < δ< -0.3$ and $1.5 < κ< 1.9$. Scenarios with strong negative triangularity and high elongation are particularly susceptible to vertical instability, necessitating the inclusion of high-field side and/or low-field side passive stabilizing plates which together reduce vertical instability growth rates by $\approx$75%. Upper limits for the forces on poloidal and toroidal field coils are predicted and mechanical loads on passive structures during current quench events are assessed. The 3 T on-axis toroidal field is achieved with 16 demountable copper toroidal field coils, allowing for easy maintenance of the vacuum vessel and poloidal field coils. This pre-conceptual design study demonstrates that the key capabilities required of a dedicated NT tokamak experiment can be realized with existing copper magnet technologies.
format Preprint
id arxiv_https___arxiv_org_abs_2501_14682
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Electromagnetic System Conceptual Design for a Negative Triangularity Tokamak
Guizzo, Sophia
Drabinskiy, Mikhail A.
Hansen, Christopher
Kachkin, Aleksandr G.
Khairutdinov, Eduard N.
Nelson, Andrew O.
Nurgaliev, Maxim R.
Pharr, Matthew
Subbotin, Georgy F.
Paz-Soldan, Carlos
Plasma Physics
Negative triangularity (NT) tokamak configurations have several key benefits including sufficient core confinement, improved power handling, and reduced edge pressure gradients that allow for edge-localized mode (ELM) free operation. We present the design of a compact NT device for testing sophisticated simulation and control software, with the aim of demonstrating NT controllability and informing power plant operation. The TokaMaker code is used to develop the basic electromagnetic system of the $R_0$ = 1 m, $a$ = 0.27 m, $B_t$ = 3 T, $I_p$ = 0.75 MA tokamak. The proposed design utilizes eight poloidal field coils with maximum currents of 1 MA to achieve a wide range of plasma geometries with $-0.7 < δ< -0.3$ and $1.5 < κ< 1.9$. Scenarios with strong negative triangularity and high elongation are particularly susceptible to vertical instability, necessitating the inclusion of high-field side and/or low-field side passive stabilizing plates which together reduce vertical instability growth rates by $\approx$75%. Upper limits for the forces on poloidal and toroidal field coils are predicted and mechanical loads on passive structures during current quench events are assessed. The 3 T on-axis toroidal field is achieved with 16 demountable copper toroidal field coils, allowing for easy maintenance of the vacuum vessel and poloidal field coils. This pre-conceptual design study demonstrates that the key capabilities required of a dedicated NT tokamak experiment can be realized with existing copper magnet technologies.
title Electromagnetic System Conceptual Design for a Negative Triangularity Tokamak
topic Plasma Physics
url https://arxiv.org/abs/2501.14682