2023
DOI: 10.1063/5.0128768
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Design and implementation of a prototype infrared video bolometer (IRVB) in MAST Upgrade

Abstract: A prototype infrared video bolometer (IRVB) was successfully deployed in the Mega Ampere Spherical Tokamak Upgrade (MAST Upgrade or MAST-U), the first deployment of such a diagnostic in a spherical tokamak. The IRVB was designed to study the radiation around the lower x-point, another first in tokamaks, and has the potential to estimate emissivity profiles with spatial resolution beyond what is achievable with resistive bolometry. The system was fully characterized prior to installation on MAST-U, and the resu… Show more

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Cited by 8 publications
(8 citation statements)
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“…Hence, we expect the total hydrogenic radiative losses to peak near the ionisation region and move upstream with the ionisation source. As the ionisation source and hydrogenic radiative losses move out of the divertor chamber, the imaging X-point bolometry system-the IRVB [36]-detects an increase in the total radiative losses above the divertor entrance.…”
Section: Hydrogenic Power Losses In the Super-x Divertor And Molecula...mentioning
confidence: 99%
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“…Hence, we expect the total hydrogenic radiative losses to peak near the ionisation region and move upstream with the ionisation source. As the ionisation source and hydrogenic radiative losses move out of the divertor chamber, the imaging X-point bolometry system-the IRVB [36]-detects an increase in the total radiative losses above the divertor entrance.…”
Section: Hydrogenic Power Losses In the Super-x Divertor And Molecula...mentioning
confidence: 99%
“…High-n n ⩾ 9 Balmer line measurements from a deeply detached L-mode discharge (# 45370) are used in section 5.1. The magnetic geometries are shown in figure 2, together with the spatial coverage of the DMS and imaging bolometer (IRVB [36], which monitors the X-point region) diagnostics. The region in which the IRVB data can be inverted to obtain 2D distributions of the radiation is reduced with respect to the absolute coverage, as there has to be a sufficient number of lines of sight (corresponding to each pixel) intersecting the poloidal plane at each location (figure 2) [36].…”
Section: Mast-u Overviewmentioning
confidence: 99%
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“…(a) Radiative power losses integrated downstream the baffle entrance for # 46860. Black-total radiation (imaging bolometer-IRVB[40] within the shaded region of figure3(c)), from repeat discharge # 47958. Total atomic hydrogenic radiation ('Hydro'-magenta) consisting of radiation from electron impact excitation ('EIE'-red), electron-ion recombination ('EIR'-blue) and plasma-molecular interactions ('PMI'-green), inferred from spectroscopic analysis.…”
mentioning
confidence: 99%