Fast-ion orbit sensitivity of neutron emission spectroscopy diagnostics

H. Järleblad; L. Stagner; M. Salewski; J. Eriksson; S. Benjamin; B. Madsen; M. Nocente; J. Rasmussen; B. S. Schmidt

doi:10.1063/5.0040696

Fast-ion orbit sensitivity of neutron emission spectroscopy diagnostics

H. Järleblad^*, L. Stagner, M. Salewski, J. Eriksson, S. Benjamin, B. Madsen, M. Nocente, J. Rasmussen, B. S. Schmidt

^*Corresponding author for this work

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

19 Citations (Scopus)

Abstract

Fast ions in fusion plasmas often leave characteristic signatures in the plasma neutron emission. Measurements of this emission are subject to the phase-space sensitivity of the diagnostic, which can be mapped using weight functions. In this paper, we present orbit weight functions for the TOFOR and NE213 neutron diagnostics at the Joint European Torus, mapping their phase-space sensitivity in 3D orbit space. Both diagnostics are highly sensitive to fast ions that spend a relatively large fraction of their orbit transit times inside the viewing cone of the diagnostic. For most neutron energies, TOFOR is found to be relatively sensitive to potato orbits and heavily localized counter-passing orbits, as well as trapped orbits whose “banana tips” are inside the viewing cone of TOFOR. For the NE213-scintillator, the sensitivity is found to be relatively high for stagnation orbits.

Original language	English
Article number	043526
Journal	Review of Scientific Instruments
Volume	92
Issue number	4
DOIs	https://doi.org/10.1063/5.0040696
Publication status	Published - 1 Apr 2021

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title = "Fast-ion orbit sensitivity of neutron emission spectroscopy diagnostics",

abstract = "Fast ions in fusion plasmas often leave characteristic signatures in the plasma neutron emission. Measurements of this emission are subject to the phase-space sensitivity of the diagnostic, which can be mapped using weight functions. In this paper, we present orbit weight functions for the TOFOR and NE213 neutron diagnostics at the Joint European Torus, mapping their phase-space sensitivity in 3D orbit space. Both diagnostics are highly sensitive to fast ions that spend a relatively large fraction of their orbit transit times inside the viewing cone of the diagnostic. For most neutron energies, TOFOR is found to be relatively sensitive to potato orbits and heavily localized counter-passing orbits, as well as trapped orbits whose “banana tips” are inside the viewing cone of TOFOR. For the NE213-scintillator, the sensitivity is found to be relatively high for stagnation orbits.",

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T1 - Fast-ion orbit sensitivity of neutron emission spectroscopy diagnostics

AU - Järleblad, H.

AU - Stagner, L.

AU - Salewski, M.

AU - Eriksson, J.

AU - Benjamin, S.

AU - Madsen, B.

AU - Nocente, M.

AU - Rasmussen, J.

AU - Schmidt, B. S.

PY - 2021/4/1

Y1 - 2021/4/1

N2 - Fast ions in fusion plasmas often leave characteristic signatures in the plasma neutron emission. Measurements of this emission are subject to the phase-space sensitivity of the diagnostic, which can be mapped using weight functions. In this paper, we present orbit weight functions for the TOFOR and NE213 neutron diagnostics at the Joint European Torus, mapping their phase-space sensitivity in 3D orbit space. Both diagnostics are highly sensitive to fast ions that spend a relatively large fraction of their orbit transit times inside the viewing cone of the diagnostic. For most neutron energies, TOFOR is found to be relatively sensitive to potato orbits and heavily localized counter-passing orbits, as well as trapped orbits whose “banana tips” are inside the viewing cone of TOFOR. For the NE213-scintillator, the sensitivity is found to be relatively high for stagnation orbits.

AB - Fast ions in fusion plasmas often leave characteristic signatures in the plasma neutron emission. Measurements of this emission are subject to the phase-space sensitivity of the diagnostic, which can be mapped using weight functions. In this paper, we present orbit weight functions for the TOFOR and NE213 neutron diagnostics at the Joint European Torus, mapping their phase-space sensitivity in 3D orbit space. Both diagnostics are highly sensitive to fast ions that spend a relatively large fraction of their orbit transit times inside the viewing cone of the diagnostic. For most neutron energies, TOFOR is found to be relatively sensitive to potato orbits and heavily localized counter-passing orbits, as well as trapped orbits whose “banana tips” are inside the viewing cone of TOFOR. For the NE213-scintillator, the sensitivity is found to be relatively high for stagnation orbits.

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Fast-ion orbit sensitivity of neutron emission spectroscopy diagnostics

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