Multi-harmonic electron cyclotron heating and current drive scenarios for non-inductive start-up and ramp-up in high field ST-40 spherical tokamak

Ono, M.; Bertelli, N.; Shevchenko, V.

doi:10.1088/1741-4326/ac8be2

Title: Multi-harmonic electron cyclotron heating and current drive scenarios for non-inductive start-up and ramp-up in high field ST-40 spherical tokamak

Journal Article · Wed Sep 21 00:00:00 EDT 2022 · Nuclear Fusion

DOI:https://doi.org/10.1088/1741-4326/ac8be2· OSTI ID:1887986

^[1];

^[1]; Shevchenko, V. ^[2]

Princeton Plasma Physics Lab. (PPPL), Princeton, NJ (United States)
Tokamak Energy, Milton Park (United Kingdom)

We report non-inductive start-up and ramp-up is an important topic for spherical tokamak reactor design as the central solenoid implementation is highly restrictive particularly for the low-aspect-ratio tokamak configuration. In the high field spherical tokamak (ST), ST-40 with B_T0 ≤ 3 T, a preparation is underway for high power ECH and ECCD current start-up/ramp-up experiments utilizing two MW-class 140/105 GHz gyrotrons. Here, we explored various ECH/ECCD scenarios for a low-field-side (LFS) launch-angle steerable waveguide launcher placed near the mid-plane region. Due to the large toroidal field variation of ST configuration, multiple cyclotron harmonic resonance layers could exist within the plasma. In this start-up and ramp-up regime, both fundamental and second harmonic ECH resonances must be considered. We find that even with the presence of X-II resonance layer in the plasma, an efficient X-I ECH and ECCD regime can be accessed for the low electron temperature T_e0 as low as 200 eV which is a typical starting temperature of ECH heated plasmas in an open-field-line configuration. The presence of X-II resonance could become significant at higher T_e0 as X-II absorption increases with T_e0 which could reduce the current ramp-up efficiency as the power reaching X-I is reduced. Finally for the pure X-I regime where the 2Ω_e resonance is moved outside the plasma with B_T0 ~ 3.4 T, we find that it is possible to reach the full current of I_p ~ 1 MA fully non-inductively with the ECH power of ~1 MW at n_e0 ~ 1.0 × 10¹⁹ m^-3 using 105 GHz frequency gyrotron. By reducing the outer limiter position R_L ~ 78 cm to 70 cm, the pure X-I regime is recovered at the rated ST-40 magnetic field of B_T0~ 3.0 T. This X-I regime is accessible with a relatively broad range of launched n_II or the launching angles. A survey of X-mode X-II ECH and ECCD at higher density regimes is also shown for completeness.

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Research Organization:: Princeton Plasma Physics Laboratory (PPPL), Princeton, NJ (United States)

Sponsoring Organization:: USDOE

Grant/Contract Number:: AC02-09CH11466; NFE-19-07769

OSTI ID:: 1887986

Journal Information:: Nuclear Fusion, Vol. 62, Issue 10; ISSN 0029-5515

Publisher:: IOP ScienceCopyright Statement

Country of Publication:: United States

Language:: English

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