Stellarator fusion systems enabled by arrays of planar coils

D. A. Gates; S. Aslam; B. Berzin; P. Bonofiglo; A. Cote; D. W. Dudt; E. Flom; D. Fort; A. Koen; T. G. Kruger; S. T.A. Kumar; M. F. Martin; A. Ottaviano; S. Pasmann; P. K. Romano; C. P.S. Swanson; L. Tang; E. Winkler; R. Wu

doi:10.1088/1741-4326/ada56c

Stellarator fusion systems enabled by arrays of planar coils

D. A. Gates
, S. Aslam
, B. Berzin
, P. Bonofiglo
, A. Cote
, D. W. Dudt
, E. Flom
, D. Fort
, A. Koen
, T. G. Kruger
, S. T.A. Kumar
, M. F. Martin
, A. Ottaviano
, S. Pasmann
, P. K. Romano
, C. P.S. Swanson
, L. Tang
, E. Winkler
, R. Wu

PPPL NSTX

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

We present an overview of a novel electromagnetic coil configuration for stellarators and its application to two near-term fusion systems. The novel coil configuration is the planar coil stellarator, able to implement precisely-quasisymmetric 3D magnetic fields using a set of planar, plasma-encircling coils and a set of planar, field-shaping coils situated on a surface surrounding the plasma. This configuration combines the stellarator’s advantages of steady-state operation, stability, low recirculating power fraction, and a mature physics basis, with the benefits of using simpler, planar coils which allow for a maintenance scheme leveraging large ports, and the ability to control magnets individually. The initial near-term use case considered is a steady state deuterium-deuterium stellarator neutron source, called Eos. The second near-term use case considered is a deuterium-tritium stellarator fusion pilot plant, called Helios, that would be approximately twice the linear dimension of the Eos design.

Original language	English (US)
Article number	026052
Journal	Nuclear Fusion
Volume	65
Issue number	2
DOIs	https://doi.org/10.1088/1741-4326/ada56c
State	Published - Feb 2025

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Condensed Matter Physics

Keywords

configuration
magnets
stellarators

Access to Document

10.1088/1741-4326/ada56c

Cite this

Gates, D. A., Aslam, S., Berzin, B., Bonofiglo, P., Cote, A., Dudt, D. W., Flom, E., Fort, D., Koen, A., Kruger, T. G., Kumar, S. T. A., Martin, M. F., Ottaviano, A., Pasmann, S., Romano, P. K., Swanson, C. P. S., Tang, L., Winkler, E., & Wu, R. (2025). Stellarator fusion systems enabled by arrays of planar coils. Nuclear Fusion, 65(2), Article 026052. https://doi.org/10.1088/1741-4326/ada56c

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title = "Stellarator fusion systems enabled by arrays of planar coils",

abstract = "We present an overview of a novel electromagnetic coil configuration for stellarators and its application to two near-term fusion systems. The novel coil configuration is the planar coil stellarator, able to implement precisely-quasisymmetric 3D magnetic fields using a set of planar, plasma-encircling coils and a set of planar, field-shaping coils situated on a surface surrounding the plasma. This configuration combines the stellarator{\textquoteright}s advantages of steady-state operation, stability, low recirculating power fraction, and a mature physics basis, with the benefits of using simpler, planar coils which allow for a maintenance scheme leveraging large ports, and the ability to control magnets individually. The initial near-term use case considered is a steady state deuterium-deuterium stellarator neutron source, called Eos. The second near-term use case considered is a deuterium-tritium stellarator fusion pilot plant, called Helios, that would be approximately twice the linear dimension of the Eos design.",

keywords = "configuration, magnets, stellarators",

author = "Gates, \{D. A.\} and S. Aslam and B. Berzin and P. Bonofiglo and A. Cote and Dudt, \{D. W.\} and E. Flom and D. Fort and A. Koen and Kruger, \{T. G.\} and Kumar, \{S. T.A.\} and Martin, \{M. F.\} and A. Ottaviano and S. Pasmann and Romano, \{P. K.\} and Swanson, \{C. P.S.\} and L. Tang and E. Winkler and R. Wu",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Published by IOP Publishing Ltd on behalf of the IAEA.",

year = "2025",

month = feb,

doi = "10.1088/1741-4326/ada56c",

language = "English (US)",

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T1 - Stellarator fusion systems enabled by arrays of planar coils

AU - Gates, D. A.

AU - Aslam, S.

AU - Berzin, B.

AU - Bonofiglo, P.

AU - Cote, A.

AU - Dudt, D. W.

AU - Flom, E.

AU - Fort, D.

AU - Koen, A.

AU - Kruger, T. G.

AU - Kumar, S. T.A.

AU - Martin, M. F.

AU - Ottaviano, A.

AU - Pasmann, S.

AU - Romano, P. K.

AU - Swanson, C. P.S.

AU - Tang, L.

AU - Winkler, E.

AU - Wu, R.

PY - 2025/2

Y1 - 2025/2

N2 - We present an overview of a novel electromagnetic coil configuration for stellarators and its application to two near-term fusion systems. The novel coil configuration is the planar coil stellarator, able to implement precisely-quasisymmetric 3D magnetic fields using a set of planar, plasma-encircling coils and a set of planar, field-shaping coils situated on a surface surrounding the plasma. This configuration combines the stellarator’s advantages of steady-state operation, stability, low recirculating power fraction, and a mature physics basis, with the benefits of using simpler, planar coils which allow for a maintenance scheme leveraging large ports, and the ability to control magnets individually. The initial near-term use case considered is a steady state deuterium-deuterium stellarator neutron source, called Eos. The second near-term use case considered is a deuterium-tritium stellarator fusion pilot plant, called Helios, that would be approximately twice the linear dimension of the Eos design.

AB - We present an overview of a novel electromagnetic coil configuration for stellarators and its application to two near-term fusion systems. The novel coil configuration is the planar coil stellarator, able to implement precisely-quasisymmetric 3D magnetic fields using a set of planar, plasma-encircling coils and a set of planar, field-shaping coils situated on a surface surrounding the plasma. This configuration combines the stellarator’s advantages of steady-state operation, stability, low recirculating power fraction, and a mature physics basis, with the benefits of using simpler, planar coils which allow for a maintenance scheme leveraging large ports, and the ability to control magnets individually. The initial near-term use case considered is a steady state deuterium-deuterium stellarator neutron source, called Eos. The second near-term use case considered is a deuterium-tritium stellarator fusion pilot plant, called Helios, that would be approximately twice the linear dimension of the Eos design.

KW - configuration

KW - magnets

KW - stellarators

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DO - 10.1088/1741-4326/ada56c

M3 - Article

AN - SCOPUS:85216318096

SN - 0029-5515

VL - 65

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 2

M1 - 026052

ER -

Stellarator fusion systems enabled by arrays of planar coils

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