Extending the low-recycling, flat temperature profile regime in the lithium tokamak experiment-β (LTX-β) with ohmic and neutral beam heating

D. Boyle; J. Anderson; S. Banerjee; R. Bell; W. Capecchi; D. Elliott; C. Hansen; S. Kubota; B. LeBlanc; A. Maan; R. Maingi; R. Majeski; J. Menard; S. Oliva; T. Rhodes; V. Soukhanovskii; L. Zakharov

doi:10.1088/1741-4326/acc4da

Extending the low-recycling, flat temperature profile regime in the lithium tokamak experiment-β (LTX-β) with ohmic and neutral beam heating

D. Boyle, J. Anderson, S. Banerjee, R. Bell, W. Capecchi, D. Elliott, C. Hansen, S. Kubota, B. LeBlanc, A. Maan, R. Maingi, R. Majeski, J. Menard, S. Oliva, T. Rhodes, V. Soukhanovskii, L. Zakharov

Diagnostics and Control

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Abstract

Recent experiments in the lithium tokamak experiment-β (LTX-β) have extended the duration, performance, operating conditions, and diagnosis of the flat-temperature profile, low-recycling regime first observed in LTX. As expected, Li retains hydrogen and suppresses edge neutral cooling, allowing increased edge electron temperature, roughly equal to the core T _e. Flat temperature profiles had been obtained transiently in LTX, as the plasma density decayed following the cessation of edge gas puffing. Careful control over the fueling in LTX-β has now been shown to sustain the flat T _e profile and hot edge unique to the low-recycling regime for multiple confinement times in high performance discharges with decaying or steady density. With low density, the flat T _e profile is also seen to extend into the scrape-off layer. Neutral beam heating is observed in target discharges with relatively flat electron temperature profiles (T _edge ∼ T _core/2), though beam heating is stronger in discharges with higher fueling, higher density, and depressed edge T _e. Beam heating produces additional peaking of the T _e profile, without degradation of the energy confinement time. Neutral beam heating of target discharges with relatively flat electron temperature profiles similarly results in broad beam heated temperature profiles. Energy confinement in LTX-β generally compares favorably to ohmic and H-mode scalings, frequently exceeding them by factors of 2-4. New and improved diagnostics in LTX-β enable better characterization of this unique regime, including measurements of ion temperature and high field side Thomson scattering profiles. As an initial step toward characterizing turbulence with no T _e gradient and roughly equal density and pressure gradient, core fluctuation spectra have been measured in peaked T _e discharges using far-forward scattering and fluctuation reflectometry.

Original language	English
Article number	056020
Journal	Nuclear Fusion
Volume	63
Issue number	5
DOIs	https://doi.org/10.1088/1741-4326/acc4da
State	Published - May 2023

Funding

The authors acknowledge support from the entire past and present LTX-\u03B2 team, especially J. Armeli, D. Corl, T. Kozub, E. Merino, F. Rabanales, P. Sloboda, and G. Zimmer. The neutral beam was provided by TAE Technologies. This work was supported by U.S. Department of Energy under contract numbers DE-AC02-09CH11466, DE-AC05-00OR22725, DE-SC0019239, DE-AC52-07NA27344 and DE-SC0023481. The United States Government retains a non-exclusive, paid-up, irrevocable, world-wide license to publish or reproduce the published form of this manuscript, or allow others to do so, for United States Government purposes. The digital data for this paper will be archived at https://dataspace.princeton.edu/handle/88435/dsp01j6731612k The authors acknowledge support from the entire past and present LTX-\u03B2 team, especially J. Armeli, D. Corl, T. Kozub, E. Merino, F. Rabanales, P. Sloboda, and G. Zimmer. The neutral beam was provided by TAE Technologies. This work was supported by U.S. Department of Energy under contract numbers DE-AC02-09CH11466, DE-AC05-00OR22725, DE-SC0019239, DE-AC52-07NA27344 and DE-SC0023481. The United States Government retains a non-exclusive, paid-up, irrevocable, world-wide license to publish or reproduce the published form of this manuscript, or allow others to do so, for United States Government purposes. The digital data for this paper will be archived at https://dataspace.princeton.edu/handle/88435/dsp01j6731612k .

Keywords

lithium
low-recycling
neutral beam injection
ohmic confinement
plasma-surface interactions
tokamak

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10.1088/1741-4326/acc4da

Cite this

Boyle, D., Anderson, J., Banerjee, S., Bell, R., Capecchi, W., Elliott, D., Hansen, C., Kubota, S., LeBlanc, B., Maan, A., Maingi, R., Majeski, R., Menard, J., Oliva, S., Rhodes, T., Soukhanovskii, V., & Zakharov, L. (2023). Extending the low-recycling, flat temperature profile regime in the lithium tokamak experiment-β (LTX-β) with ohmic and neutral beam heating. Nuclear Fusion, 63(5), Article 056020. https://doi.org/10.1088/1741-4326/acc4da

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title = "Extending the low-recycling, flat temperature profile regime in the lithium tokamak experiment-β (LTX-β) with ohmic and neutral beam heating",

abstract = "Recent experiments in the lithium tokamak experiment-β (LTX-β) have extended the duration, performance, operating conditions, and diagnosis of the flat-temperature profile, low-recycling regime first observed in LTX. As expected, Li retains hydrogen and suppresses edge neutral cooling, allowing increased edge electron temperature, roughly equal to the core T e. Flat temperature profiles had been obtained transiently in LTX, as the plasma density decayed following the cessation of edge gas puffing. Careful control over the fueling in LTX-β has now been shown to sustain the flat T e profile and hot edge unique to the low-recycling regime for multiple confinement times in high performance discharges with decaying or steady density. With low density, the flat T e profile is also seen to extend into the scrape-off layer. Neutral beam heating is observed in target discharges with relatively flat electron temperature profiles (T edge ∼ T core/2), though beam heating is stronger in discharges with higher fueling, higher density, and depressed edge T e. Beam heating produces additional peaking of the T e profile, without degradation of the energy confinement time. Neutral beam heating of target discharges with relatively flat electron temperature profiles similarly results in broad beam heated temperature profiles. Energy confinement in LTX-β generally compares favorably to ohmic and H-mode scalings, frequently exceeding them by factors of 2-4. New and improved diagnostics in LTX-β enable better characterization of this unique regime, including measurements of ion temperature and high field side Thomson scattering profiles. As an initial step toward characterizing turbulence with no T e gradient and roughly equal density and pressure gradient, core fluctuation spectra have been measured in peaked T e discharges using far-forward scattering and fluctuation reflectometry.",

keywords = "lithium, low-recycling, neutral beam injection, ohmic confinement, plasma-surface interactions, tokamak",

author = "D. Boyle and J. Anderson and S. Banerjee and R. Bell and W. Capecchi and D. Elliott and C. Hansen and S. Kubota and B. LeBlanc and A. Maan and R. Maingi and R. Majeski and J. Menard and S. Oliva and T. Rhodes and V. Soukhanovskii and L. Zakharov",

note = "Publisher Copyright: {\textcopyright} 2023 The Author(s). Published on behalf of IAEA by IOP Publishing Ltd",

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Boyle, D, Anderson, J, Banerjee, S, Bell, R, Capecchi, W, Elliott, D, Hansen, C, Kubota, S, LeBlanc, B, Maan, A, Maingi, R, Majeski, R, Menard, J, Oliva, S, Rhodes, T, Soukhanovskii, V & Zakharov, L 2023, 'Extending the low-recycling, flat temperature profile regime in the lithium tokamak experiment-β (LTX-β) with ohmic and neutral beam heating', Nuclear Fusion, vol. 63, no. 5, 056020. https://doi.org/10.1088/1741-4326/acc4da

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T1 - Extending the low-recycling, flat temperature profile regime in the lithium tokamak experiment-β (LTX-β) with ohmic and neutral beam heating

AU - Boyle, D.

AU - Anderson, J.

AU - Banerjee, S.

AU - Bell, R.

AU - Capecchi, W.

AU - Elliott, D.

AU - Hansen, C.

AU - Kubota, S.

AU - LeBlanc, B.

AU - Maan, A.

AU - Maingi, R.

AU - Majeski, R.

AU - Menard, J.

AU - Oliva, S.

AU - Rhodes, T.

AU - Soukhanovskii, V.

AU - Zakharov, L.

PY - 2023/5

Y1 - 2023/5

N2 - Recent experiments in the lithium tokamak experiment-β (LTX-β) have extended the duration, performance, operating conditions, and diagnosis of the flat-temperature profile, low-recycling regime first observed in LTX. As expected, Li retains hydrogen and suppresses edge neutral cooling, allowing increased edge electron temperature, roughly equal to the core T e. Flat temperature profiles had been obtained transiently in LTX, as the plasma density decayed following the cessation of edge gas puffing. Careful control over the fueling in LTX-β has now been shown to sustain the flat T e profile and hot edge unique to the low-recycling regime for multiple confinement times in high performance discharges with decaying or steady density. With low density, the flat T e profile is also seen to extend into the scrape-off layer. Neutral beam heating is observed in target discharges with relatively flat electron temperature profiles (T edge ∼ T core/2), though beam heating is stronger in discharges with higher fueling, higher density, and depressed edge T e. Beam heating produces additional peaking of the T e profile, without degradation of the energy confinement time. Neutral beam heating of target discharges with relatively flat electron temperature profiles similarly results in broad beam heated temperature profiles. Energy confinement in LTX-β generally compares favorably to ohmic and H-mode scalings, frequently exceeding them by factors of 2-4. New and improved diagnostics in LTX-β enable better characterization of this unique regime, including measurements of ion temperature and high field side Thomson scattering profiles. As an initial step toward characterizing turbulence with no T e gradient and roughly equal density and pressure gradient, core fluctuation spectra have been measured in peaked T e discharges using far-forward scattering and fluctuation reflectometry.

AB - Recent experiments in the lithium tokamak experiment-β (LTX-β) have extended the duration, performance, operating conditions, and diagnosis of the flat-temperature profile, low-recycling regime first observed in LTX. As expected, Li retains hydrogen and suppresses edge neutral cooling, allowing increased edge electron temperature, roughly equal to the core T e. Flat temperature profiles had been obtained transiently in LTX, as the plasma density decayed following the cessation of edge gas puffing. Careful control over the fueling in LTX-β has now been shown to sustain the flat T e profile and hot edge unique to the low-recycling regime for multiple confinement times in high performance discharges with decaying or steady density. With low density, the flat T e profile is also seen to extend into the scrape-off layer. Neutral beam heating is observed in target discharges with relatively flat electron temperature profiles (T edge ∼ T core/2), though beam heating is stronger in discharges with higher fueling, higher density, and depressed edge T e. Beam heating produces additional peaking of the T e profile, without degradation of the energy confinement time. Neutral beam heating of target discharges with relatively flat electron temperature profiles similarly results in broad beam heated temperature profiles. Energy confinement in LTX-β generally compares favorably to ohmic and H-mode scalings, frequently exceeding them by factors of 2-4. New and improved diagnostics in LTX-β enable better characterization of this unique regime, including measurements of ion temperature and high field side Thomson scattering profiles. As an initial step toward characterizing turbulence with no T e gradient and roughly equal density and pressure gradient, core fluctuation spectra have been measured in peaked T e discharges using far-forward scattering and fluctuation reflectometry.

KW - lithium

KW - low-recycling

KW - neutral beam injection

KW - ohmic confinement

KW - plasma-surface interactions

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SN - 0029-5515

VL - 63

JO - Nuclear Fusion

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ER -

Extending the low-recycling, flat temperature profile regime in the lithium tokamak experiment-β (LTX-β) with ohmic and neutral beam heating

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