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Autores principales: Pigatto, L., Frello, G., Liu, Y. Q., Novello, L., Takechi, M., Tomasina, E., Bolzonella, T.
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2510.15504
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author Pigatto, L.
Frello, G.
Liu, Y. Q.
Novello, L.
Takechi, M.
Tomasina, E.
Bolzonella, T.
author_facet Pigatto, L.
Frello, G.
Liu, Y. Q.
Novello, L.
Takechi, M.
Tomasina, E.
Bolzonella, T.
contents JT-60SA is a large superconducting tokamak built in Naka, Japan. After the successful achievement of its first MA-class plasma, the installation of several additional sub-systems, including a set of non-axisymmetric Error Field Correction Coils (EFCC), is ongoing. Optimization of future JT-60SA plasma scenarios will critically depend on the correct use of EFCC, including careful fulfillment of system specifications. In addition to that, preparation and risk mitigation of early ITER operations will greatly benefit from the experience gained by early EFCC application to JT-60SA experiments, in particular to optimize error field detection and control strategies. In this work, EFCC application in JT-60SA Initial Research Phase I perspective scenarios is modeled including plasma response. Impact of (Resonant) Magnetic Perturbations on the different plasma scenarios is assessed for both core and pedestal regions by the linear resistive MHD code MARS-F. The dominant core response to EFs is discussed case by case and compared to mode locking thresholds from literature. Typical current/voltage amplitudes and wave-forms are then compared to EFCC specifications in order to assess a safe operational space.
format Preprint
id arxiv_https___arxiv_org_abs_2510_15504
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Modelling-driven requirements for Error Field Control Coil application to initial JT-60SA plasmas
Pigatto, L.
Frello, G.
Liu, Y. Q.
Novello, L.
Takechi, M.
Tomasina, E.
Bolzonella, T.
Plasma Physics
Systems and Control
JT-60SA is a large superconducting tokamak built in Naka, Japan. After the successful achievement of its first MA-class plasma, the installation of several additional sub-systems, including a set of non-axisymmetric Error Field Correction Coils (EFCC), is ongoing. Optimization of future JT-60SA plasma scenarios will critically depend on the correct use of EFCC, including careful fulfillment of system specifications. In addition to that, preparation and risk mitigation of early ITER operations will greatly benefit from the experience gained by early EFCC application to JT-60SA experiments, in particular to optimize error field detection and control strategies. In this work, EFCC application in JT-60SA Initial Research Phase I perspective scenarios is modeled including plasma response. Impact of (Resonant) Magnetic Perturbations on the different plasma scenarios is assessed for both core and pedestal regions by the linear resistive MHD code MARS-F. The dominant core response to EFs is discussed case by case and compared to mode locking thresholds from literature. Typical current/voltage amplitudes and wave-forms are then compared to EFCC specifications in order to assess a safe operational space.
title Modelling-driven requirements for Error Field Control Coil application to initial JT-60SA plasmas
topic Plasma Physics
Systems and Control
url https://arxiv.org/abs/2510.15504