Te (R,t) measurements using electron Bernstein wave thermal emission on NSTX

S. J. Diem; G. Taylor; P. C. Efthimion; B. P. Leblanc; M. Carter; J. Caughman; J. B. Wilgen; R. W. Harvey; J. Preinhaelter; J. Urban

doi:10.1063/1.2235112

Te (R,t) measurements using electron Bernstein wave thermal emission on NSTX

S. J. Diem, G. Taylor, P. C. Efthimion, B. P. Leblanc, M. Carter, J. Caughman, J. B. Wilgen, R. W. Harvey, J. Preinhaelter, J. Urban

Fusion Technology

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

9 Scopus citations

Abstract

The National Spherical Torus Experiment (NSTX) routinely studies overdense plasmas with ne of (1-5) × 1019 m-3 and total magnetic field of <0.6 T, so that the first several electron cyclotron harmonics are overdense. The electrostatic electron Bernstein wave (EBW) can propagate in overdense plasmas, exhibits strong absorption, and is thermally emitted at electron cyclotron harmonics. These properties allow thermal EBW emission to be used for local Te measurement. A significant upgrade to the previous NSTX EBW emission diagnostic to measure thermal EBW emission via the oblique B-X-O mode conversion process has been completed. The new EBW diagnostic consists of two remotely steerable, quad-ridged horn antennas, each of which is coupled to a dual channel radiometer. Fundamental (8-18 GHz) and second and third harmonic (18-40 GHz) thermal EBW emission and polarization measurements can be obtained simultaneously.

Original language	English
Article number	10E919
Journal	Review of Scientific Instruments
Volume	77
Issue number	10
DOIs	https://doi.org/10.1063/1.2235112
State	Published - 2006

Funding

The authors would like to thank Larry Guttadora for his technical support on this project. This research was supported by the United States Department of Energy Contract No. DE-AC02-76CH03073 and a grant to encourage innovations in fusion diagnostic systems.

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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title = "Te (R,t) measurements using electron Bernstein wave thermal emission on NSTX",

abstract = "The National Spherical Torus Experiment (NSTX) routinely studies overdense plasmas with ne of (1-5) × 1019 m-3 and total magnetic field of <0.6 T, so that the first several electron cyclotron harmonics are overdense. The electrostatic electron Bernstein wave (EBW) can propagate in overdense plasmas, exhibits strong absorption, and is thermally emitted at electron cyclotron harmonics. These properties allow thermal EBW emission to be used for local Te measurement. A significant upgrade to the previous NSTX EBW emission diagnostic to measure thermal EBW emission via the oblique B-X-O mode conversion process has been completed. The new EBW diagnostic consists of two remotely steerable, quad-ridged horn antennas, each of which is coupled to a dual channel radiometer. Fundamental (8-18 GHz) and second and third harmonic (18-40 GHz) thermal EBW emission and polarization measurements can be obtained simultaneously.",

author = "Diem, {S. J.} and G. Taylor and Efthimion, {P. C.} and Leblanc, {B. P.} and M. Carter and J. Caughman and Wilgen, {J. B.} and Harvey, {R. W.} and J. Preinhaelter and J. Urban",

year = "2006",

doi = "10.1063/1.2235112",

language = "English",

volume = "77",

journal = "Review of Scientific Instruments",

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T1 - Te (R,t) measurements using electron Bernstein wave thermal emission on NSTX

AU - Diem, S. J.

AU - Taylor, G.

AU - Efthimion, P. C.

AU - Leblanc, B. P.

AU - Carter, M.

AU - Caughman, J.

AU - Wilgen, J. B.

AU - Harvey, R. W.

AU - Preinhaelter, J.

AU - Urban, J.

PY - 2006

Y1 - 2006

N2 - The National Spherical Torus Experiment (NSTX) routinely studies overdense plasmas with ne of (1-5) × 1019 m-3 and total magnetic field of <0.6 T, so that the first several electron cyclotron harmonics are overdense. The electrostatic electron Bernstein wave (EBW) can propagate in overdense plasmas, exhibits strong absorption, and is thermally emitted at electron cyclotron harmonics. These properties allow thermal EBW emission to be used for local Te measurement. A significant upgrade to the previous NSTX EBW emission diagnostic to measure thermal EBW emission via the oblique B-X-O mode conversion process has been completed. The new EBW diagnostic consists of two remotely steerable, quad-ridged horn antennas, each of which is coupled to a dual channel radiometer. Fundamental (8-18 GHz) and second and third harmonic (18-40 GHz) thermal EBW emission and polarization measurements can be obtained simultaneously.

AB - The National Spherical Torus Experiment (NSTX) routinely studies overdense plasmas with ne of (1-5) × 1019 m-3 and total magnetic field of <0.6 T, so that the first several electron cyclotron harmonics are overdense. The electrostatic electron Bernstein wave (EBW) can propagate in overdense plasmas, exhibits strong absorption, and is thermally emitted at electron cyclotron harmonics. These properties allow thermal EBW emission to be used for local Te measurement. A significant upgrade to the previous NSTX EBW emission diagnostic to measure thermal EBW emission via the oblique B-X-O mode conversion process has been completed. The new EBW diagnostic consists of two remotely steerable, quad-ridged horn antennas, each of which is coupled to a dual channel radiometer. Fundamental (8-18 GHz) and second and third harmonic (18-40 GHz) thermal EBW emission and polarization measurements can be obtained simultaneously.

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U2 - 10.1063/1.2235112

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JF - Review of Scientific Instruments

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M1 - 10E919

ER -

Te (R,t) measurements using electron Bernstein wave thermal emission on NSTX

Abstract

Funding

UN SDGs

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