14 results on '"Kwon JM"'
Search Results
2. Toroidal rotation profile structure in KSTAR L-mode plasmas with mixed heating by NBI and ECH
- Author
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Shi, YJ, Ko, SH, Kwon, JM, Ko, WH, Diamond, PH, Yi, S, Ida, K, Lee, KD, Jeong, JH, Seo, SH, Hahn, SH, Yoon, SW, Bae, YS, Terzolo, L, Yun, GS, Bitter, M, and Hill, K
- Subjects
toroidal rotation ,KSTAR ,ECH ,L-mode ,Fluids & Plasmas ,Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics ,Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics - Abstract
The structure of the toroidal rotation profile with mixed heating by neutral beam injection (NBI) and electron cyclotron resonance heating (ECH) has been investigated in KSTAR L-mode plasmas. ECH with varying resonance layer positions was used for heating a mix control. The experimental results show that ECH causes a counter-current rotation increment both for off-axis and on-axis ECH heating. For L-mode plasmas, off-axis ECH produces larger counter-current rotation than on-axis ECH. Analysis of ion heat and momentum transport for the ECH L-mode plasmas shows that the electron temperature gradient is the main reason for the degradation of ion heat confinement and also the main driving force for the non-diffusive momentum flux. As a possible mechanism for the counter-current intrinsic torque with ECH, the transition of the turbulence mode from ion temperature gradient (ITG) to the trapped electron mode (TEM) with the resulting sign change of turbulence driven residual stress is suggested. A linear gyro-kinetic analysis shows the ITG → TEM transition occurs in a localized region during ECH injection, and the trend of TEM excitation is consistent with the observed macroscopic trend of the toroidal rotation.
- Published
- 2016
3. Turbulence spreading as a non-local mechanism of global confinement degradation and ion temperature profile stiffness
- Author
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Yi, S, Kwon, JM, Diamond, PH, and Hahm, TS
- Subjects
core ion energy confinement ,non-local transport mechanism ,turbulence spreading ,Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics ,Fluids & Plasmas - Abstract
A new non-local mechanism of the global confinement degradation and ion temperature profile stiffness is proposed based on the results of global gyrokinetic simulations. We find that turbulence spreading into a marginally stable zone can increase turbulent transport to a level exceeding the predictions of the local theories. Also, we present the first quantification of the parametric dependence of turbulence spreading and resulting confinement degradation on toroidal rotation shear and magnetic shear: turbulence spreading is significant for high magnetic shears s > 0.2, while it is slowed for low magnetic shears. The suppression of turbulence spreading by toroidal rotation shear is only effective for the low magnetic shears, which is in a good agreement with the experimental trends of core confinement improvement. Our findings suggest that the non-local mechanism is indispensable for accurate transport modeling in tokamak plasmas.
- Published
- 2015
4. Ion temperature and toroidal velocity edge transport barriers in KSTAR
- Author
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Ko, Won-Ha, Ko, SH, Kwon, JM, Diamond, PH, Ida, K, Jeon, YM, Lee, JH, Yoon, SW, and Kwak, JG
- Subjects
toroidal rotation pedestal ,ion temperature pedestal ,gyrokinetic stability ,RMPs ,KSTAR ,charge exchange spectroscopy ,Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics ,Fluids & Plasmas - Abstract
The structure and evolution of the ion temperature (Ti) and toroidal rotation (V-) profile have been investigated in neutral beam injection (NBI)-heated KSTAR H-mode plasmas, both without and with resonant magnetic pertubations (RMPs). A clear disparity between the width of the ∇Vφpedestal and that of the ∇Ti-pedestal was observed. Also, it was found that there exists a close correlation and weak relative hysteresis between the pedestal ∇Vφand ∇Ti during both L →H and H →L transitions. During the L →H transition, the Vφpedestal is observed to form ahead of the Ti-pedestal, and build inward from the separatrix. Linear gyrokinetic stability analysis of these KSTAR profiles was performed. The results indicate that parallel velocity shear is a relevant drive for pedestal turbulence and transport. This was largely ignored in previous studies of the pedestal micro-stability. Pedestal ion temperature and rotation profiles were also measured during edge localized mode (ELM) suppression experiments on KSTAR using an n = 1 RMPs. It was found that the top values of the ion temperature and toroidal rotation pedestal drop with RMPs when ELMs are suppressed.
- Published
- 2015
5. Effects of q-profile structure on turbulence spreading: A fluctuation intensity transport analysis
- Author
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Yi, S, Kwon, JM, Diamond, PH, and Hahm, TS
- Subjects
Astronomical and Space Sciences ,Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics ,Classical Physics ,Fluids & Plasmas - Abstract
This paper studies effects of q-profile structure on turbulence spreading. It reports results of numerical experiments using global gyrokinetic simulations. We examine propagation of turbulence, triggered by an identical linear instability in a source region, into an adjacent, linearly stable region with variable q-profile. The numerical experiments are designed so as to separate the physics of turbulence spreading from that of linear stability. The strength of turbulence spreading is measured by the penetration depth of turbulence. Dynamics of spreading are elucidated by fluctuation intensity balance analysis, using a model intensity evolution equation which retains nonlinear diffusion and damping, and linear growth. It is found that turbulence spreading is strongly affected by magnetic shear s, but is hardly altered by the safety factor q itself. There is an optimal range of modest magnetic shear which maximizes turbulence spreading. For high to modest shear values, the spreading is enhanced by the increase of the mode correlation length with decreasing magnetic shear. However, the efficiency of spreading drops for sufficiently low magnetic shear even though the mode correlation length is comparable to that for the case of optimal magnetic shear. The reduction of spreading is attributed to the increase in time required for the requisite nonlinear mode-mode interactions. The effect of increased interaction time dominates that of increased mode correlation length. Our findings of the reduction of spreading and the increase in interaction time at weak magnetic shear are consistent with the well-known benefit of weak or reversed magnetic shear for core confinement enhancement. Weak shear is shown to promote locality, as well as stability.
- Published
- 2014
6. ELM mitigation by supersonic molecular beam injection: KSTAR and HL-2A experiments and theory
- Author
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Xiao, WW, Diamond, PH, Kim, WC, Yao, LH, Yoon, SW, Ding, XT, Hahn, SH, Kim, J, Xu, M, Chen, CY, Feng, BB, Cheng, J, Zhong, WL, Shi, ZB, Jiang, M, Han, XY, Nam, YU, Ko, WH, Lee, SG, Bak, JG, Ahn, JW, Kim, HK, Kim, HT, Kim, KP, Zou, XL, Song, SD, Song, JI, Yu, YW, Rhee, T, Kwon, JM, Huang, XL, Yu, DL, Lee, KD, Park, SI, Jung, M, Zoletnik, S, Lampert, M, Tynan, GR, Bae, YS, Kwak, JG, Yan, LW, Duan, XR, Oh, YK, and Dong, JQ
- Subjects
supersonic molecular beam injection ,ELM mitigation ,transport ,Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics ,Fluids & Plasmas - Abstract
We report recent experimental results from HL-2A and KSTAR on ELM mitigation by supersonic molecular beam injection (SMBI). Cold particle deposition within the pedestal by SMBI is verified in both machines. The signatures of ELM mitigation by SMBI are an ELM frequency increase and ELM amplitude decrease. These persist for an SMBI influence time τI. Here, τI is the time for the SMBI influenced pedestal profile to refill. An increase in fELMSMBI/fELM0 and a decrease in the energy loss per ELM ΔWELM were achieved in both machines. Physical insight was gleaned from studies of density and vΦ (toroidal rotation velocity) evolution, particle flux and turbulence spectra, divertor heat load. The characteristic gradients of the pedestal density soften and a change in vΦ was observed during a τI time. The spectra of the edge particle flux Γ ∼ 〈ṽrñe〉 and density fluctuation with and without SMBI were measured in HL-2A and in KSTAR, respectively. A clear phenomenon observed is the decrease in divertor heat load during the τI time in HL-2A. Similar results are the profiles of saturation current density Jsat with and without SMBI in KSTAR. We note that τI/τp (particle confinement time) is close to ∼1, although there is a large difference in individual τI between the two machines. This suggests that τI is strongly related to particle-transport events. Experiments and analysis of a simple phenomenological model support the important conclusion that ELM mitigation by SMBI results from an increase in higher frequency fluctuations and transport events in the pedestal. © 2014 IAEA, Vienna.
- Published
- 2014
7. ECH effects on toroidal rotation: KSTAR experiments, intrinsic torque modelling and gyrokinetic stability analyses
- Author
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Shi, YJ, Ko, WH, Kwon, JM, Diamond, PH, Lee, SG, Ko, SH, Wang, L, Yi, S, Ida, K, Terzolo, L, Yoon, SW, Lee, KD, Lee, JH, Nam, UN, Bae, YS, Oh, YK, Kwak, JG, Bitter, M, Hill, K, Gurcan, OD, and Hahm, TS
- Subjects
Fluids & Plasmas ,Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics ,Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics - Abstract
Toroidal rotation profiles have been investigated in KSTAR H-mode plasma using combined auxiliary heating by co-neutral beam injection (NBI) and electron cyclotron resonance heating (ECH). The ion temperature and toroidal rotation are measured with x-ray imaging crystal spectroscopy and charge exchange recombination spectroscopy. H-mode plasma is achieved using co-current 1.3 MW NBI, and a 0.35 MW ECH pulse is added to the flat-top of H-mode. The core rotation profiles, which are centrally peaked in the pure NBI heating phase, flatten when ECH is injected, while the edge pedestal is unchanged. Dramatic decreases in the core toroidal rotation values (ΔVtor/V tor ∼ -30%) are observed when on-axis ECH is added to H-mode. The experimental data show that the decrease of core rotation velocity and its gradient are correlated with the increase of core electron temperature and its gradient, and also with the likely steepening of the density gradient. We thus explore the viability of a hypothesized ITG (ITG ion temperature gradient instability) → TEM (trapped electron mode instability) transition as the explanation of the observed counter-current flow induced by ECH. However, the results of linear microstability analyses using inferred profiles suggest that the TEM is excited only in the deep core, so the viability of the hypothesized explanation is not yet clear. © 2013 IAEA, Vienna.
- Published
- 2013
8. An overview of intrinsic torque and momentum transport bifurcations in toroidal plasmas
- Author
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Diamond, PH, Kosuga, Y, Gürcan, ÖD, McDevitt, CJ, Hahm, TS, Fedorczak, N, Rice, JE, Wang, WX, Ku, S, Kwon, JM, Dif-Pradalier, G, Abiteboul, J, Wang, L, Ko, WH, Shi, YJ, Ida, K, Solomon, W, Jhang, H, Kim, SS, Yi, S, Ko, SH, Sarazin, Y, Singh, R, and Chang, CS
- Subjects
Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics ,Fluids & Plasmas - Abstract
An overview of the physics of intrinsic torque is presented, with special emphasis on the phenomenology of intrinsic toroidal rotation in tokamaks, its theoretical understanding, and the variety of momentum transport bifurcation dynamics. Ohmic reversals and electron cyclotron heating-driven counter torque are discussed in some detail. Symmetry breaking by lower single null versus upper single null asymmetry is related to the origin of intrinsic torque at the separatrix. © 2013 IAEA, Vienna.
- Published
- 2013
9. Effect of secondary convective cells on turbulence intensity profiles, flow generation, and transport
- Author
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Yi, S, Kwon, JM, Diamond, PH, and Rhee, T
- Subjects
Astronomical and Space Sciences ,Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics ,Classical Physics ,Fluids & Plasmas - Abstract
This paper reports the results of gyrokinetic simulation studies of ion temperature gradient driven turbulence which investigate the role of non-resonant modes in turbulence spreading, turbulence regulation, and self-generated plasma rotation. Non-resonant modes, which are those without a rational surface within the simulation domain, are identified as nonlinearly driven, radially extended convective cells. Even though the amplitudes of such convective cells are much smaller than that of the resonant, localized turbulence eddies, we find from bicoherence analysis that the mode-mode interactions in the presence of such convective cells increase the efficiency of turbulence spreading associated with nonlocality phenomena. Artificial suppression of the convective cells shows that turbulence spreading is reduced, and that the turbulence intensity profile is more localized. The more localized turbulence intensity profile produces stronger Reynolds stress and E × B shear flows, which in turn results in more effective turbulence self-regulation. This suggests that models without non-resonant modes may significantly underestimate turbulent fluctuation levels and transport. © 2012 American Institute of Physics.
- Published
- 2012
10. ELM control experiments in the KSTAR device
- Author
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Kim, Jayhyun, Jeon, Y-M, Xiao, WW, Yoon, S-W, Park, J-K, Yun, GS, Ahn, J-W, Kim, HS, Yang, H-L, Kim, HK, Park, S, Jeong, JH, Jung, M, Choe, GH, Ko, WH, Lee, S-G, Nam, YU, Bak, JG, Lee, KD, Na, HK, Hahn, S-H, Diamond, PH, Rhee, T, Kwon, JM, Sabbagh, SA, Park, YS, Park, HK, Na, YS, Kim, WC, and Kwak, JG
- Subjects
Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics ,Fluids & Plasmas - Abstract
The fourth KSTAR campaign in 2011 concentrated on active edge-localized mode (ELM) control by various methods such as non-axisymmetric magnetic perturbations, supersonic molecular beam injection (SMBI), vertical jogs of the plasma column and edge electron heating. The segmented in-vessel control coil (IVCC) system is capable of applying n2 perturbed field with different phasing among top, middle and bottom coils. Application of an n=1 perturbed field showed a desirable ELM suppression result. Fast vertical jogs of the plasma column achieved ELM pace-making and ELMs locked to 50Hz vertical jogs were observed with a high probability of phase locking. A newly installed SMBI system was used for ELM control and the state of mitigated ELMs was sustained by the optimized repetitive SMBI pulse for a few tens of ELM periods. A change in ELM behaviour was seen due to edge electron heating although the effect of ECH launch needs supplementary analyses. The ECEI images of suppressed/mitigated ELM states showed apparent differences when compared with natural ELMy states. Further analyses are ongoing to explain the observed ELM control results. © 2012 IAEA, Vienna.
- Published
- 2012
11. ELM mitigation by supersonic molecular beam injection into the H-mode pedestal in the HL-2A tokamak
- Author
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Xiao, WW, Diamond, PH, Zou, XL, Dong, JQ, Ding, XT, Yao, LH, Feng, BB, Chen, CY, Zhong, WL, Xu, M, Yuan, BS, Rhee, T, Kwon, JM, Shi, ZB, Rao, J, Lei, GJ, Cao, JY, Zhou, J, Huang, M, Yu, DL, Huang, Y, Zhao, KJ, Cui, ZY, Song, XM, Gao, YD, Zhang, YP, Cheng, J, Han, XY, Zhou, Y, Dong, YB, Ji, XQ, Yang, QW, Liu, Yi, Yan, LW, Duan, XR, and Liu, Yong
- Subjects
Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics ,Fluids & Plasmas - Abstract
Abstract Density profiles in the pedestal region (H-mode) are measured in HL-2A and the characteristics of the density pedestal are described. Cold particle deposition by supersonic molecular beam injection (SMBI) within the pedestal is verified. Edge-localized mode (ELM) mitigation by SMBI into the H-mode pedestal is demonstrated and the relevant physics is elucidated. The sensitivity of the effect to SMBI pressure and duration is studied. Following SMBI, the ELM frequency increases and the ELM amplitude decreases for a finite duration. Increases in ELM frequency of are achieved. This experiment argues that the ELM mitigation results from an increase in higher frequency fluctuations and transport events in the pedestal, which are caused by SMBI. These inhibit the occurrence of large transport events which span the entire pedestal width. The observed change in the density pedestal profiles and edge particle flux spectrum with and without SMBI supports this interpretation. An analysis of the experiment and a model shows that ELMs can be mitigated by SMBI with shallow particle penetration into the pedestal.
- Published
- 2012
12. On the mechanism for edge localized mode mitigation by supersonic molecular beam injection
- Author
-
Rhee, T, Kwon, JM, Diamond, PH, and Xiao, WW
- Subjects
Astronomical and Space Sciences ,Atomic ,Molecular ,Nuclear ,Particle and Plasma Physics ,Classical Physics ,Fluids & Plasmas - Abstract
We construct a diffusive, bi-stable cellular automata model to elucidate the physical mechanisms underlying observed edge localized mode (ELM) mitigation by supersonic molecular beam injection (SMBI). The extended cellular automata model reproduces key qualitative features of ELM mitigation experiments, most significantly the increase in frequency of grain ejection events (ELMs), and the decrease in the number of grains ejected by these transport events. The basic mechanism of mitigation is the triggering of small scale pedestal avalanches by additional grain injection directly into the H-mode pedestal. The small scale avalanches prevent the gradient from building-up to marginality throughout the pedestal, thus avoiding large scale transport events which span the full extent of that region. We explore different grain injection parameters to find an optimal SMBI scenario. We show that shallow SMBI deposition is sufficient for ELM mitigation.
- Published
- 2012
13. Ion temperature and toroidal velocity edge transport barriers in KSTAR
- Author
-
Ko, WH, Ko, WH, Ko, SH, Kwon, JM, Diamond, PH, Ida, K, Jeon, YM, Lee, JH, Yoon, SW, Kwak, JG, Ko, WH, Ko, WH, Ko, SH, Kwon, JM, Diamond, PH, Ida, K, Jeon, YM, Lee, JH, Yoon, SW, and Kwak, JG
- Abstract
The structure and evolution of the ion temperature (Ti) and toroidal rotation (V-) profile have been investigated in neutral beam injection (NBI)-heated KSTAR H-mode plasmas, both without and with resonant magnetic pertubations (RMPs). A clear disparity between the width of the ∇Vφpedestal and that of the ∇Ti-pedestal was observed. Also, it was found that there exists a close correlation and weak relative hysteresis between the pedestal ∇Vφand ∇Ti during both L →H and H →L transitions. During the L →H transition, the Vφpedestal is observed to form ahead of the Ti-pedestal, and build inward from the separatrix. Linear gyrokinetic stability analysis of these KSTAR profiles was performed. The results indicate that parallel velocity shear is a relevant drive for pedestal turbulence and transport. This was largely ignored in previous studies of the pedestal micro-stability. Pedestal ion temperature and rotation profiles were also measured during edge localized mode (ELM) suppression experiments on KSTAR using an n = 1 RMPs. It was found that the top values of the ion temperature and toroidal rotation pedestal drop with RMPs when ELMs are suppressed.
- Published
- 2015
14. ELM control experiments in the KSTAR device
- Author
-
Kim, J, Kim, J, Jeon, YM, Xiao, WW, Yoon, SW, Park, JK, Yun, GS, Ahn, JW, Kim, HS, Yang, HL, Kim, HK, Park, S, Jeong, JH, Jung, M, Choe, GH, Ko, WH, Lee, SG, Nam, YU, Bak, JG, Lee, KD, Na, HK, Hahn, SH, Diamond, PH, Rhee, T, Kwon, JM, Sabbagh, SA, Park, YS, Park, HK, Na, YS, Kim, WC, Kwak, JG, Kim, J, Kim, J, Jeon, YM, Xiao, WW, Yoon, SW, Park, JK, Yun, GS, Ahn, JW, Kim, HS, Yang, HL, Kim, HK, Park, S, Jeong, JH, Jung, M, Choe, GH, Ko, WH, Lee, SG, Nam, YU, Bak, JG, Lee, KD, Na, HK, Hahn, SH, Diamond, PH, Rhee, T, Kwon, JM, Sabbagh, SA, Park, YS, Park, HK, Na, YS, Kim, WC, and Kwak, JG
- Abstract
The fourth KSTAR campaign in 2011 concentrated on active edge-localized mode (ELM) control by various methods such as non-axisymmetric magnetic perturbations, supersonic molecular beam injection (SMBI), vertical jogs of the plasma column and edge electron heating. The segmented in-vessel control coil (IVCC) system is capable of applying n2 perturbed field with different phasing among top, middle and bottom coils. Application of an n=1 perturbed field showed a desirable ELM suppression result. Fast vertical jogs of the plasma column achieved ELM pace-making and ELMs locked to 50Hz vertical jogs were observed with a high probability of phase locking. A newly installed SMBI system was used for ELM control and the state of mitigated ELMs was sustained by the optimized repetitive SMBI pulse for a few tens of ELM periods. A change in ELM behaviour was seen due to edge electron heating although the effect of ECH launch needs supplementary analyses. The ECEI images of suppressed/mitigated ELM states showed apparent differences when compared with natural ELMy states. Further analyses are ongoing to explain the observed ELM control results. © 2012 IAEA, Vienna.
- Published
- 2012
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