NSTX-U theory, modeling and analysis results

The mission of the low aspect ratio spherical tokamak NSTX-U is to advance the physics basis and technical solutions required for optimizing the configuration of next-step steady-state tokamak fusion devices. NSTX-U will ultimately operate at up to 2 MA of plasma current and 1 T toroidal field on ax...

Full description

Saved in:
Bibliographic Details
Published in:Nuclear fusion 2022-03, Vol.62 (4)
Main Authors: Guttenfelder, Walter, Battaglia, D J, Belova, Elena, Bertelli, Nicola, Boyer, Mark D, Chang, Choong Seock, Diallo, Ahmed, Duarte, Vinicius N, Ebrahimi, Fatima, Emdee, Eric, Ferraro, N, Fredrickson, Eric, Gorelenkov, Nikolai N, Heidbrink, William W, Ilhan, Zeki, Kaye, Stanley M, Kim, Eun-Hwa, Kleiner, Andreas, Laggner, Florian M., Lampert, Mate, Lestz, Jeff, Liu, Chang, Liu, Deyong, Looby, Tom, Mandell, Noah, Maingi, Rajesh, Myra, James R, Munaretto, Stefano, Podesta, Mario, Rafiq, Tariq, Raman, Roger, Reinke, Matthew, Ren, Yang, Ruiz Ruiz, Juan, Scotti, Filippo, Shiraiwa, Syun'ichi, Soukhanovskii, Vlad, Vail, Patrick, Wang, Zhirui, Wehner, Will P, White, Anne E, White, Roscoe B, Woods, Benjamin J Q, Yang, James, Zweben, Stewart, Banerjee, Santanu, Barchfeld, Robert, Bell, Ronald E, Berkery, John, Bhattacharjee, Amitawa, Bierwage, Andreas, Canal, Gustavo Paganini, Chen, Xiang, Clauser, Cesar Fernando, Crocker, Neal A, Domier, C W, Evans, Todd E, Francisquez, Manaure, Gan, Kaifu, Gerhardt, Stefan P, Goldston, Robert James, Gray, Travis K, Hakim, Ammar, Hammett, Gregory W, Jardin, Stephen C, Kaita, Robert, Koel, Bruce E, Kolemen, Egemen, Ku, Seung-Hoe, Kubota, Shigeyuki, LeBlanc, Benoit P, Levinton, Fred, Lore, Jeremy D, Luhmann, Neville C, Lunsford, R., Maqueda, Ricardo, Menard, Jonathan E, Nichols, Jacob H, Ono, Masayuki, Park, Jong-Kyu, Poli, Francesca M, Rhodes, Terry L, Riquezes, Juan, Russell, Dave A, Sabbagh, Steve A, Schuster, Eugenio, Smith, David, Stotler, Daren P, Stratton, Brentley, Tritz, Kevin, Wang, Weixing, Wirth, Brian D
Format: Article
Language:English
Subjects:
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
NSTX
NSTX-U
overview
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The mission of the low aspect ratio spherical tokamak NSTX-U is to advance the physics basis and technical solutions required for optimizing the configuration of next-step steady-state tokamak fusion devices. NSTX-U will ultimately operate at up to 2 MA of plasma current and 1 T toroidal field on axis for 5 seconds, and has available up to 15 MW of Neutral Beam Injection (NBI) power at different tangency radii and 6 MW of High Harmonic Fast Wave (HHFW) heating. With these capabilities NSTX-U will develop the physics understanding and control tools to ramp-up and sustain high performance fully non-inductive plasmas with large bootstrap fraction and enhanced confinement enabled via the low aspect ratio, high beta configuration. With its unique capabilities, NSTX-U research also supports ITER and other critical fusion development needs. Super-Alfvénic ions in beam-heated NSTX-U plasmas access energetic particle parameter space that is relevant for both -heated conventional and low aspect ratio burning plasmas. NSTX-U can also generate very large target heat fluxes to test conventional and innovative plasma exhaust and plasma facing component (PFC) solutions. This paper summarizes recent analysis, theory and modelling progress to advance the tokamak physics basis in the areas of macrostability and 3D fields, energetic particle stability and fast ion transport, thermal transport and pedestal structure, boundary and plasma material interaction, RF heating, scenario optimization and real-time control.
ISSN:0029-5515
1741-4326
DOI:10.1088/1741-4326/ac5366