NCSX magnetic configuration flexibility and robustness

N. Pomphrey; A. Boozer; A. Brooks; R. Hatcher; S. P. Hirshman; S. Hudson; L. P. Ku; E. A. Lazarus; H. Mynick; D. Monticello; M. Redi; A. Reiman; M. C. Zarnstorff; I. Zatz

doi:10.13182/FST07-A1298

NCSX magnetic configuration flexibility and robustness

N. Pomphrey, A. Boozer, A. Brooks, R. Hatcher, S. P. Hirshman, S. Hudson, L. P. Ku, E. A. Lazarus, H. Mynick, D. Monticello, M. Redi, A. Reiman, M. C. Zarnstorff, I. Zatz

PPPL Theory

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

15 Scopus citations

Abstract

The National Compact Stellarator Experiment (NCSX) will study the physics of law-aspect ratio, high-β, quasi-axisymmetric stellarators. To achieve the scientific goals of the NCSX mission, the device must be capable of supporting a wide range of variations in plasma configuration about a reference baseline equilibrium. We demonstrate the flexibility of NCSX coils to support such configuration variations and demonstrate the robustness of performance of NCSX plasmas about reference design values of the plasma current I_p, β, and profile shapes. The robustness and flexibility calculations make use of free-boundary plasma equilibrium constructions using a combination of nonaxisymmetric modular coils and axisymmetric toroidal and poloidal field coils. The primary computational tool for the studies is STELLOPT, a free-boundary optimization code that varies coil currents to target configurations with specific physics properties.

Original language	English (US)
Pages (from-to)	181-202
Number of pages	22
Journal	Fusion Science and Technology
Volume	51
Issue number	2
DOIs	https://doi.org/10.13182/FST07-A1298
State	Published - Feb 2007

All Science Journal Classification (ASJC) codes

Civil and Structural Engineering
Nuclear and High Energy Physics
Nuclear Energy and Engineering
General Materials Science
Mechanical Engineering

Keywords

Design
Flexibility
Stellarator

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10.13182/FST07-A1298

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title = "NCSX magnetic configuration flexibility and robustness",

abstract = "The National Compact Stellarator Experiment (NCSX) will study the physics of law-aspect ratio, high-β, quasi-axisymmetric stellarators. To achieve the scientific goals of the NCSX mission, the device must be capable of supporting a wide range of variations in plasma configuration about a reference baseline equilibrium. We demonstrate the flexibility of NCSX coils to support such configuration variations and demonstrate the robustness of performance of NCSX plasmas about reference design values of the plasma current Ip, β, and profile shapes. The robustness and flexibility calculations make use of free-boundary plasma equilibrium constructions using a combination of nonaxisymmetric modular coils and axisymmetric toroidal and poloidal field coils. The primary computational tool for the studies is STELLOPT, a free-boundary optimization code that varies coil currents to target configurations with specific physics properties.",

keywords = "Design, Flexibility, Stellarator",

author = "N. Pomphrey and A. Boozer and A. Brooks and R. Hatcher and Hirshman, \{S. P.\} and S. Hudson and Ku, \{L. P.\} and Lazarus, \{E. A.\} and H. Mynick and D. Monticello and M. Redi and A. Reiman and Zarnstorff, \{M. C.\} and I. Zatz",

year = "2007",

month = feb,

doi = "10.13182/FST07-A1298",

language = "English (US)",

volume = "51",

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journal = "Fusion Science and Technology",

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AU - Pomphrey, N.

AU - Boozer, A.

AU - Brooks, A.

AU - Hatcher, R.

AU - Hirshman, S. P.

AU - Hudson, S.

AU - Ku, L. P.

AU - Lazarus, E. A.

AU - Mynick, H.

AU - Monticello, D.

AU - Redi, M.

AU - Reiman, A.

AU - Zarnstorff, M. C.

AU - Zatz, I.

PY - 2007/2

Y1 - 2007/2

N2 - The National Compact Stellarator Experiment (NCSX) will study the physics of law-aspect ratio, high-β, quasi-axisymmetric stellarators. To achieve the scientific goals of the NCSX mission, the device must be capable of supporting a wide range of variations in plasma configuration about a reference baseline equilibrium. We demonstrate the flexibility of NCSX coils to support such configuration variations and demonstrate the robustness of performance of NCSX plasmas about reference design values of the plasma current Ip, β, and profile shapes. The robustness and flexibility calculations make use of free-boundary plasma equilibrium constructions using a combination of nonaxisymmetric modular coils and axisymmetric toroidal and poloidal field coils. The primary computational tool for the studies is STELLOPT, a free-boundary optimization code that varies coil currents to target configurations with specific physics properties.

AB - The National Compact Stellarator Experiment (NCSX) will study the physics of law-aspect ratio, high-β, quasi-axisymmetric stellarators. To achieve the scientific goals of the NCSX mission, the device must be capable of supporting a wide range of variations in plasma configuration about a reference baseline equilibrium. We demonstrate the flexibility of NCSX coils to support such configuration variations and demonstrate the robustness of performance of NCSX plasmas about reference design values of the plasma current Ip, β, and profile shapes. The robustness and flexibility calculations make use of free-boundary plasma equilibrium constructions using a combination of nonaxisymmetric modular coils and axisymmetric toroidal and poloidal field coils. The primary computational tool for the studies is STELLOPT, a free-boundary optimization code that varies coil currents to target configurations with specific physics properties.

KW - Design

KW - Flexibility

KW - Stellarator

UR - https://www.scopus.com/pages/publications/33847750719

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DO - 10.13182/FST07-A1298

M3 - Article

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SN - 1536-1055

VL - 51

SP - 181

EP - 202

JO - Fusion Science and Technology

JF - Fusion Science and Technology

IS - 2

ER -

NCSX magnetic configuration flexibility and robustness

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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