Measuring power loss in DIII-D ECH waveguides with arrays of temperature sensors
POSTER
Abstract
The DIII-D National Fusion Facility utilizes megawatt-class gyrotrons for electron cyclotron heating (ECH) and current drive (ECCD). Corrugated waveguides, 70-80
meters long with 31.75 mm inner diameter, transmit 110 GHz radio frequency (RF) waves from gyrotrons to the tokamak. Understanding the physics effects of ECH/ECCD
processes relies on accurate estimates of injected ECH power, which require precise measurements of RF transmission losses. DIII-D has expanded its methods for assessing
losses, moving beyond comparing power measurements between dummy loads near the gyrotrons and those near the tokamak. An array of resistance temperature
detectors (RTDs) measures the temperature rise of one of DIII-D’s waveguides during gyrotron pulses, which allows estimation of the power lost to waveguide heating. This
RTD array now interfaces with a python GUI for real-time temperature monitoring during plasma operations. This setup improves the spatial resolution of waveguide
heating, enabling early detection of potential damage and continual tracking of transmission characteristics over time.
meters long with 31.75 mm inner diameter, transmit 110 GHz radio frequency (RF) waves from gyrotrons to the tokamak. Understanding the physics effects of ECH/ECCD
processes relies on accurate estimates of injected ECH power, which require precise measurements of RF transmission losses. DIII-D has expanded its methods for assessing
losses, moving beyond comparing power measurements between dummy loads near the gyrotrons and those near the tokamak. An array of resistance temperature
detectors (RTDs) measures the temperature rise of one of DIII-D’s waveguides during gyrotron pulses, which allows estimation of the power lost to waveguide heating. This
RTD array now interfaces with a python GUI for real-time temperature monitoring during plasma operations. This setup improves the spatial resolution of waveguide
heating, enabling early detection of potential damage and continual tracking of transmission characteristics over time.
Presenters
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Ian Pagan
.
Authors
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Ian Pagan
.
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Michael P Ross
General Atomics
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Nikolai de Boucard
General Atomics
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Yuri A Gorelov
General Atomics
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Antonio C Torrezan
General Atomics
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Perry Nesbet
General Atomics
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Rigo Brambila
General Atomics
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William Grosnickle
General atomics
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Jared Squire
General Atomics
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Alexandre Dupuy
General Atomics