%0 Journal Article %1 hawkes.2002 %A Hawkes, N. C. %A Andrew, Y. %A Challis, C. D. %A DeAngelis, R. %A Drozdov, V. %A Hobirk, J. %A Joffrin, E. %A Lotte, P. %A Mazon, D. %A Rachlew, E. %A Reyes-Cortes, S. %A Sattin, F. %A Solano, E. %A Stratton, B. C. %A Tala, T. %A Valisa, M. %A contributors to the EFDA-JET workprogramme, %D 2002 %J Plasma Physics and Controlled Fusion %K ITB JET current_hole current_reversal equilibrium i-mhd tokamak %N 7 %P 1105-1125 %R 10.1088/0741-3335/44/7/304 %T The formation and evolution of extreme shear reversal in JET and its influence on local thermal transport %U http://iopscience.iop.org/0741-3335/44/7/304 %V 44 %X In JET discharges where lower hybrid heating and current drive (LHCD) is applied early during the current ramp, a region of the plasma with zero current density is formed near the axis. At the boundary of this region the current density is large and $B_þeta$ increases rapidly over a small distance. In the central region the safety factor, $q$, is effectively infinite, but this falls steeply in the boundary region. Outside the boundary region $q$ reaches a minimum, where the magnetic shear $s = r/q (dq/dr)$ becomes zero. The formation of this region of zero current is dependent on both the heating and the current drive effects of the LHCD. When LHCD is switched off the current profile begins to relax towards the resistive peaked current distribution of fully inductive tokamak operation. If LHCD is not used in the current rise then these current profiles are not established. Although the physical mechanism exists to drive the central plasma current below zero, in most cases it appears to be prevented from going negative. At least one MHD mechanism has been identified which could be responsible for this. The presence of the zero central current is closely linked to the periodic relaxation events seen in these discharges. In these discharges, internal transport barriers have been observed with additional heating powers substantially below the values required to obtain barriers in monotonic $q$ profile cases.

@article{hawkes.2002, abstract = { In JET discharges where lower hybrid heating and current drive (LHCD) is applied early during the current ramp, a region of the plasma with zero current density is formed near the axis. At the boundary of this region the current density is large and $B_\theta$ increases rapidly over a small distance. In the central region the safety factor, $q$, is effectively infinite, but this falls steeply in the boundary region. Outside the boundary region $q$ reaches a minimum, where the magnetic shear $s = r/q (dq/dr)$ becomes zero. The formation of this region of zero current is dependent on both the heating and the current drive effects of the LHCD. When LHCD is switched off the current profile begins to relax towards the resistive peaked current distribution of fully inductive tokamak operation. If LHCD is not used in the current rise then these current profiles are not established. Although the physical mechanism exists to drive the central plasma current below zero, in most cases it appears to be prevented from going negative. At least one MHD mechanism has been identified which could be responsible for this. The presence of the zero central current is closely linked to the periodic relaxation events seen in these discharges. In these discharges, internal transport barriers have been observed with additional heating powers substantially below the values required to obtain barriers in monotonic $q$ profile cases.}, added-at = {2009-07-06T12:43:50.000+0200}, author = {Hawkes, N. C. and Andrew, Y. and Challis, C. D. and DeAngelis, R. and Drozdov, V. and Hobirk, J. and Joffrin, E. and Lotte, P. and Mazon, D. and Rachlew, E. and Reyes-Cortes, S. and Sattin, F. and Solano, E. and Stratton, B. C. and Tala, T. and Valisa, M. and contributors to the EFDA-JET workprogramme}, biburl = {https://www.bibsonomy.org/bibtex/2f7f71de469cf8c55dba4015d1edf7924/prodrigues}, description = {Shear-reversal discharges in JET}, doi = {10.1088/0741-3335/44/7/304}, interhash = {b4804853eace3d2d2c0142ccfcec301e}, intrahash = {f7f71de469cf8c55dba4015d1edf7924}, journal = {Plasma Physics and Controlled Fusion}, keywords = {ITB JET current_hole current_reversal equilibrium i-mhd tokamak}, month = {June}, number = 7, numpages = {21}, pages = {1105-1125}, timestamp = {2009-07-06T12:43:50.000+0200}, title = {The formation and evolution of extreme shear reversal in JET and its influence on local thermal transport}, url = {http://iopscience.iop.org/0741-3335/44/7/304}, volume = 44, year = 2002 }