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XP-945: ELM Pacing via Vertical Position Jogs S.P. Gerhardt, J.M. Canik, D. Gates, R. Goldston, R. Hawryluk, R. Maingi, J. Menard, S. Sabbagh, A. Sontag.

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Presentation on theme: "XP-945: ELM Pacing via Vertical Position Jogs S.P. Gerhardt, J.M. Canik, D. Gates, R. Goldston, R. Hawryluk, R. Maingi, J. Menard, S. Sabbagh, A. Sontag."— Presentation transcript:

1 XP-945: ELM Pacing via Vertical Position Jogs S.P. Gerhardt, J.M. Canik, D. Gates, R. Goldston, R. Hawryluk, R. Maingi, J. Menard, S. Sabbagh, A. Sontag NSTX Supported by College W&M Colorado Sch Mines Columbia U CompX General Atomics INEL Johns Hopkins U LANL LLNL Lodestar MIT Nova Photonics New York U Old Dominion U ORNL PPPL PSI Princeton U Purdue U SNL Think Tank, Inc. UC Davis UC Irvine UCLA UCSD U Colorado U Illinois U Maryland U Rochester U Washington U Wisconsin Culham Sci Ctr U St. Andrews York U Chubu U Fukui U Hiroshima U Hyogo U Kyoto U Kyushu U Kyushu Tokai U NIFS Niigata U U Tokyo JAEA Hebrew U Ioffe Inst RRC Kurchatov Inst TRINITI KBSI KAIST POSTECH ASIPP ENEA, Frascati CEA, Cadarache IPP, Jülich IPP, Garching ASCR, Czech Rep U Quebec

2 NSTX XP-945, Monday Physics Meeting (Gerhardt)6/15/09 2 Background and Summary ITER (and larger devices) cannot have large ELMs –ITER is limited to (?) <0.6% of stored energy lost per ELM –DEMO requirements are an order of magnitude less. Need to mitigate, or completely suppress, ELMs. –Suppression techniques include some RMP results, QH mode. –Mitigation could mean ELM pacing with 3-D fields, small-ELM regimes, pacing via pellets, or plasma position oscillations. Attempted in XP-945 to “pace” ELMs via vertical jogs. –Use the commands available in the double-null isoflux algorithm to rapidly vary the plasma vertical position. –Used 6 Hours on June 1 st, and 4 hours on June 12 th. –We did develop recipes for jogging the plasma, and, to some extent, were able to trigger ELMs.

3 NSTX XP-945, Monday Physics Meeting (Gerhardt)6/15/09 3 Plasma Was Surprisingly Tolerant of Jogs 134301: Plasma tolerates 6 cm axis jogs with no degradation in confinement ! But, no ELMS, why? –Too close to Lithiumization? Reference is ELM free. –Not biased down enough? Jogging seemed to work better at dr-sep~-2 cm

4 NSTX XP-945, Monday Physics Meeting (Gerhardt)6/15/09 4 ELM Triggering was Observed Requested -3.5 cm jogs in dr sep, with a request between jogs of -2 cm. Bolometer and upper divertor D  show evidence of ELMs synchronized with the PF-3 coil current. Clear perturbations on the axis location and dr sep. Performance is not degraded in shot with jogs.

5 NSTX XP-945, Monday Physics Meeting (Gerhardt)6/15/09 5 Jog Amplitude Was Substantial 134318, t=0.715 134318, t=0.732 A zaxis =0 cm A drsep =-3.5 cm f=30 Hz, t=6 msec 133936, t=0.592 133936, t=0.578 A zaxis =-16 cm A drsep =-2 cm f=45 Hz, t=10 msec

6 NSTX XP-945, Monday Physics Meeting (Gerhardt)6/15/09 6 Observations and Future Analysis Scheme for jogging the plasma was developed: –First tried jogs in z axis, then synchronous in z axis and dr sep, and finally settled on jogs in dr sep alone. Plasma was surprisingly tolerant of jogs, as long as dr sep didn’t become too small. –Comparing fiducial (134299) and an “identical” shot with 60 Hz, 4cm pk-pk jogs, 25 mg Li (134392), shot with jogs was arguably better. –Indications, however, that as the “average” dr-sep became more negative, the jogs became less benign (H->L backtransitions). Triggering ELMs via Jogs is NOT easy. –Shot 134392, beginning of 2nd day, fiducial shape, after large amount of Li, had 60 Hz, 4cm pk- pk axis jogs, and NO ELMs were triggered. –This target would have easily ELMed under the Canik/Maingi/Sontag pulsed n=3 method. –Problem may have been i) dr sep too near zero, or ii) proximity to Li application. –In any case, triggering only shown to work for dr sep <~1 cm. –Triggering “efficiency” remained low. Analysis Tasks –Reconstruct the edge current density, using equilibrium reconstruction, TRANSP, or other available tools. –Look at the time evolution of shots that had partial triggering…why did some jogs work? –Look into the feasibility of pedestal stability analysis. Future Experimental Work (Speculation…) –Are some equilibria better-suited to these experiments. Low-delta? What is the allowed dr sep range? –Can the triggering be made more efficient?

7 NSTX XP-945, Monday Physics Meeting (Gerhardt)6/15/09 7 Plasma Successfully “Jogged” 133936, t=0.592 133936, t=0.578 A zaxis =-16 cm A drsep =-2 cm f=45 Hz, t=10 msec 133935, t=0.71 133935, t=0.698 A zaxis =-16 cm A drsep =-3 cm f=45 Hz, t=6 msec

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