Studies of the outer-off-midplane lower hybrid wave launch scenario for plasma start-up on the TST-2 spherical tokamak

• Published in: Nuclear fusion Vol. 64; no. 8; pp. 86017 - 86029
• Main Authors: Tsujii, N., Ejiri, A., Ko, Y., Peng, Y., Iwasaki, K., Lin, Y., Shinohara, K., Watanabe, O., Jang, S., Hidano, T., Shirasawa, Y., Tian, Y., Adachi, F., Moeller, C.P.
• Format: Journal Article
• Language: English
• Published: IOP Publishing 01.08.2024
• Subjects: fast electrons; lower hybrid current drive; plasma start-up; spherical tokamak
• ISSN: 0029-5515; 1741-4326
• DOI: 10.1088/1741-4326/ad52a9

Abstract Establishment of an efficient central solenoid (CS) free tokamak plasma start-up method may lead to an economical fusion reactor. CS-free start-up using lower hybrid (LH) waves has been studied on the TST-2 spherical tokamak. Plasma current of about a quarter of CS-driven discharges has been obtained fully non-inductively using the outer-midplane and top LH launchers. Recently, an outer-off-midplane LH launcher was developed to achieve higher plasma current by optimizing for core absorption and minimal fast electron losses. Using the (outer-)off-midplane launcher, fully non-inductive plasma current start-up up to about 8 kA was achieved. Coupled ray-tracing and Fokker–Planck simulation was performed on equilibria reconstructed with an extended MHD model. It was found that the experimentally observed plasma current was in reasonable agreement with the numerical simulation. The simulation predicted appreciable orbit losses for the off-midplane launcher driven discharge at the present parameters, which was consistent with the experimentally observed x-ray radiation characteristics. The simulation showed that the current density was saturated for the present off-midplane launcher discharges and higher density and higher LH power was necessary to achieve higher plasma current.