Study of the phase transition dynamics of the L to H transition

R. A. Moyer; T. L. Rhodes; C. L. Rettig; E. J. Doyle; K. H. Burrell; J. Cuthbertson; R. J. Groebner; K. W. Kim; A. W. Leonard; R. Maingi; G. D. Porter; J. G. Watkins

doi:10.1088/0741-3335/41/2/007

Study of the phase transition dynamics of the L to H transition

R. A. Moyer, T. L. Rhodes, C. L. Rettig, E. J. Doyle, K. H. Burrell, J. Cuthbertson, R. J. Groebner, K. W. Kim, A. W. Leonard, R. Maingi, G. D. Porter, J. G. Watkins

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Abstract

A highly radiating zone (MARFE) just above the divertor X-point has been used to access the marginal transition regime P_sep≈P_thres to study the existence of a critical point for the L to H transition. Phase transition models predict that at the critical point the transition duration increases and the plasma parameters vary continuously between the L- and H-mode. In these experiments, the L to H transition duration increased 50-100 times over fast transitions. However, the evolution of E_r shear, the edge density gradient, the H-mode pedestal, and fluctuations is essentially unchanged from that in fast transitions. The only difference is in the speed with which and the degree to which the fluctuation amplitudes are transiently reduced. This difference is understandable in terms of the time scales for fluctuation amplitude reduction (≤100 μs) and edge pressure gradient increase (several ms), provided the edge fluctuations are pressure-gradient driven.

Original language	English
Pages (from-to)	243-249
Number of pages	7
Journal	Plasma Physics and Controlled Fusion
Volume	41
Issue number	2
DOIs	https://doi.org/10.1088/0741-3335/41/2/007
State	Published - Feb 1999

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title = "Study of the phase transition dynamics of the L to H transition",

abstract = "A highly radiating zone (MARFE) just above the divertor X-point has been used to access the marginal transition regime Psep≈Pthres to study the existence of a critical point for the L to H transition. Phase transition models predict that at the critical point the transition duration increases and the plasma parameters vary continuously between the L- and H-mode. In these experiments, the L to H transition duration increased 50-100 times over fast transitions. However, the evolution of Er shear, the edge density gradient, the H-mode pedestal, and fluctuations is essentially unchanged from that in fast transitions. The only difference is in the speed with which and the degree to which the fluctuation amplitudes are transiently reduced. This difference is understandable in terms of the time scales for fluctuation amplitude reduction (≤100 μs) and edge pressure gradient increase (several ms), provided the edge fluctuations are pressure-gradient driven.",

author = "Moyer, {R. A.} and Rhodes, {T. L.} and Rettig, {C. L.} and Doyle, {E. J.} and Burrell, {K. H.} and J. Cuthbertson and Groebner, {R. J.} and Kim, {K. W.} and Leonard, {A. W.} and R. Maingi and Porter, {G. D.} and Watkins, {J. G.}",

year = "1999",

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T1 - Study of the phase transition dynamics of the L to H transition

AU - Moyer, R. A.

AU - Rhodes, T. L.

AU - Rettig, C. L.

AU - Doyle, E. J.

AU - Burrell, K. H.

AU - Cuthbertson, J.

AU - Groebner, R. J.

AU - Kim, K. W.

AU - Leonard, A. W.

AU - Maingi, R.

AU - Porter, G. D.

AU - Watkins, J. G.

PY - 1999/2

Y1 - 1999/2

N2 - A highly radiating zone (MARFE) just above the divertor X-point has been used to access the marginal transition regime Psep≈Pthres to study the existence of a critical point for the L to H transition. Phase transition models predict that at the critical point the transition duration increases and the plasma parameters vary continuously between the L- and H-mode. In these experiments, the L to H transition duration increased 50-100 times over fast transitions. However, the evolution of Er shear, the edge density gradient, the H-mode pedestal, and fluctuations is essentially unchanged from that in fast transitions. The only difference is in the speed with which and the degree to which the fluctuation amplitudes are transiently reduced. This difference is understandable in terms of the time scales for fluctuation amplitude reduction (≤100 μs) and edge pressure gradient increase (several ms), provided the edge fluctuations are pressure-gradient driven.

AB - A highly radiating zone (MARFE) just above the divertor X-point has been used to access the marginal transition regime Psep≈Pthres to study the existence of a critical point for the L to H transition. Phase transition models predict that at the critical point the transition duration increases and the plasma parameters vary continuously between the L- and H-mode. In these experiments, the L to H transition duration increased 50-100 times over fast transitions. However, the evolution of Er shear, the edge density gradient, the H-mode pedestal, and fluctuations is essentially unchanged from that in fast transitions. The only difference is in the speed with which and the degree to which the fluctuation amplitudes are transiently reduced. This difference is understandable in terms of the time scales for fluctuation amplitude reduction (≤100 μs) and edge pressure gradient increase (several ms), provided the edge fluctuations are pressure-gradient driven.

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VL - 41

SP - 243

EP - 249

JO - Plasma Physics and Controlled Fusion

JF - Plasma Physics and Controlled Fusion

IS - 2

ER -

Study of the phase transition dynamics of the L to H transition

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