All Stories

  1. Topology of the warm plasma dispersion relation at the second harmonic electron cyclotron resonance layer
  2. Separation of transport in slow and fast time-scales using modulated heat pulse experiments (hysteresis in flux explained)
  3. Early evolution of electron cyclotron driven current during suppression of tearing modes in a circular tokamak
  4. Molecular dynamics simulations of ballistic He penetration into W fuzz
  5. Numerical and experimental study of the redistribution of energetic and impurity ions by sawteeth in ASDEX Upgrade
  6. A model-based, multichannel, real-time capable sawtooth crash detector
  7. New insights into the generalized Rutherford equation for nonlinear neoclassical tearing mode growth from 2D reduced MHD simulations
  8. Closure of the single fluid magnetohydrodynamic equations in presence of electron cyclotron current drive
  9. Closure of the single fluid magnetohydrodynamic equations in presence of electron cyclotron current drive
  10. Redistribution of fast ions during sawtooth reconnection
  11. Corrigendum: The European Integrated Tokamak Modelling (ITM) effort: achievements and first physics results (2014Nucl. Fusion54 043018)
  12. Non-linear effects in electron cyclotron current drive applied for the stabilization of neoclassical tearing modes
  13. The European Integrated Tokamak Modelling (ITM) effort: achievements and first physics results
  14. Experimental characterization of anomalous strong scattering of mm-waves in TEXTOR plasmas with rotating islands
  15. Summary of EC-17: the 17th Joint Workshop on Electron Cyclotron Emission and Electron Cyclotron Resonance Heating (Deurne, The Netherlands, 7–10 May 2012)
  16. Evaluating neoclassical tearing mode detection with ECE for control on ITER
  17. Coupling the beam tracing code TORBEAM and the Fokker-Planck solver RELAX for fast electrons
  18. Modification of the collective Thomson scattering radiometer in the search for parametric decay on TEXTOR
  19. Consequences of plasma rotation for neoclassical tearing mode suppression by electron cyclotron current drive
  20. Integrated modelling of island growth, stabilization and mode locking: consequences for NTM control on ITER
  21. Robust sawtooth period control based on adaptive online optimization
  22. Sawtooth period control strategies and designs for improved performance
  23. Systematic design and simulation of a tearing mode suppression feedback control system for the TEXTOR tokamak
  24. Nonlinear control for stabilization of small neoclassical tearing modes in ITER
  25. Electron Cyclotron Waves
  26. Non-Inductive Current Drive
  27. A new mechanism for sawtooth period control
  28. Benchmarking of electron cyclotron heating and current drive codes on ITER scenarios within the European Integrated Tokamak Modelling framework
  29. Commissioning of inline ECE system within waveguide based ECRH transmission systems on ASDEX upgrade
  30. Dynamical modelling of neoclassical tearing mode suppression by ECCD
  31. ECE for NTM control on ITER
  32. Preface
  33. Summary of papers presented in the Theory and Modelling session
  34. Toward 3D MHD modeling of neoclassical tearing mode suppression by ECCD
  35. Wave Beam Propagation Through Density Fluctuations
  36. Numerical demonstration of injection locking of the sawtooth period by means of modulated EC current drive
  37. Control of sawteeth and neo-classical tearing modes in tokamaks using electron cyclotron waves
  38. Comparison of measured and simulated fast ion velocity distributions in the TEXTOR tokamak
  39. Requirements on localized current drive for the suppression of neoclassical tearing modes
  40. Systematic design of a sawtooth period feedback controller using a Kadomtsev–Porcelli sawtooth model
  41. Intermediate frequency band digitized high dynamic range radiometer system for plasma diagnostics and real-time Tokamak control
  42. Comment on ‘The role of the RF induced electric field in the current drive by EC waves in the presence of magnetic islands’
  43. Dynamics of fast ions during sawtooth oscillations in the TEXTOR tokamak measured by collective Thomson scattering
  44. Modelling of tearing mode suppression experiments in TEXTOR based on the generalized Rutherford equation
  45. The role of asymmetries in the growth and suppression of neoclassical tearing modes
  46. ECCD requirements for the NTM suppression
  47. The influence of the edge density fluctuations on electron cyclotron wave beam propagation in tokamaks
  48. ECCD calculations in ITER by means of the quasi-optical code
  49. Real-time control of tearing modes using a line-of-sight electron cyclotron emission diagnostic
  50. Utilization of collinear ECE detection/ECRH heating for active stabilization of plasma instabilities
  51. Fast-ion redistribution due to sawtooth crash in the TEXTOR tokamak measured by collective Thomson scattering
  52. On the merits of heating and current drive for tearing mode stabilization
  53. Electron Cyclotron Waves
  54. Non-Inductive Current Drive
  55. Control oriented modeling and simulation of the sawtooth instability in nuclear fusion tokamak plasmas
  56. Development and testing of a fast Fourier transform high dynamic-range spectral diagnostics for millimeter wave characterization
  57. Strong Scattering of High Power Millimeter Waves in Tokamak Plasmas with Tearing Modes
  58. ECE system on ASDEX-upgrade placed inline at the high power waveguide based transmission system
  59. Fast fourier transform based diagnostics for spectral characterization of millimeter waves in tokamaks
  60. Consequences of finite transport on the effectiveness of ECCD for neoclassical tearing mode stabilization in ITER
  61. A closed-loop control system for stabilization of MHD events on TEXTOR
  62. On the merits of heating and current drive for tearing mode stabilization
  63. The effect of the radial diffusion on the effectiveness of ECCD for neoclassical tearing mode stabilization in ITER
  64. Heat pulse propagation studies around magnetic islands induced by the Dynamic Ergodic Divertor in TEXTOR
  65. ECRH power deposition from a quasi-optical point of view
  66. Electron Cyclotron Waves
  67. Temporal evolution of confined fast-ion velocity distributions measured by collective Thomson scattering in TEXTOR
  68. Benchmarking of codes for electron cyclotron heating and electron cyclotron current drive under ITER conditions
  69. A line-of-sight electron cyclotron emission receiver for electron cyclotron resonance heating feedback control of tearing modes
  70. Fast-ion dynamics in the TEXTOR tokamak measured by collective Thomson scattering
  71. Design of a feedback system to stabilise instabilities by ECRH using a combined ECW launcher and ECE receiver
  72. Design of the remote-steering ITER ECRH upper-port launcher
  73. Resonance broadening as a consequence of strong focussing of electron cyclotron wave beams
  74. Chapter 3: MHD stability, operational limits and disruptions
  75. A new approach for diagnostics of dense magnetoactive plasmas using the effect of parametrically induced transparency
  76. Fokker-Planck modeling of current penetration during electron cyclotron current drive
  77. Effect of Heating on the Suppression of Tearing Modes in Tokamaks
  78. Tearing mode stabilization by electron cyclotron resonance heating demonstrated in the TEXTOR tokamak and the implication for ITER
  79. Modification of Sawtooth Oscillations with ICRF Waves in the JET Tokamak
  80. Fast-Ion Dynamics in the TEXTOR Tokamak Measured by Collective Thomson Scattering
  81. Tearing mode physics studies applying the dynamic ergodic divertor on TEXTOR
  82. Current fast ion collective Thomson scattering diagnostics at TEXTOR and ASDEX Upgrade, and ITER plans (invited)
  83. Frequency measurements of the gyrotrons used for collective Thomson scattering diagnostics at TEXTOR and ASDEX Upgrade
  84. On ion cyclotron current drive for sawtooth control
  85. Design of the Remote-Steering ITER ECRH Upper-Port Launcher
  86. Overview of Experiments with the Dynamic Ergodic Divertor on TEXTOR
  87. Dependence of the threshold for perturbation field generatedm/n= 2/1 tearing modes on the plasma fluid rotation
  88. Transportation of radiation through opaque magnetoactive plasmas by the means of parametrically induced transparency
  89. Electron Cyclotron Waves
  90. Effect of the dynamic ergodic divertor in the TEXTOR tokamak on MHD stability, plasma rotation and transport
  91. Sawtooth control in fusion plasmas
  92. Development of the 140GHz gyrotron and its subsystems for ECH and ECCD in TEXTOR
  93. Integrated modelling of the current profile in steady-state and hybrid ITER scenarios
  94. Observation of the palm tree mode, a new MHD mode excited by type-I ELMs on JET
  95. Toroidal Plasma Rotation Induced by the Dynamic Ergodic Divertor in the TEXTOR Tokamak
  96. The dynamic ergodic divertor in the TEXTOR tokamak: plasma response to dynamic helical magnetic field perturbations
  97. Fast ion millimeter wave collective Thomson scattering diagnostics on TEXTOR and ASDEX upgrades
  98. Reduced core transport in T-10 and TEXTOR discharges at rational surfaces with low magnetic shear
  99. Destabilization of Fast-Ion-Induced Long Sawteeth by Localized Current Drive in the JET Tokamak
  100. Confinement and transport in EC heated RI-mode discharges in TEXTOR
  101. Overview of JET results
  102. Overview of ASDEX Upgrade results
  103. Electron cyclotron resonance heating on TEXTOR
  104. Wave power balance in resonant dissipative media with spatial and temporal dispersion
  105. The ECW installation at the TEXTOR tokamak
  106. Spectral properties of decaying turbulence in electron magnetohydrodynamics
  107. Control of sawteeth and triggering of NTMs with ion cyclotron resonance frequency waves in JET
  108. Analysis of ion cyclotron heating and current drive at $\omega$$\approx$2$\omega$cH for sawtooth control in JET plasmas*
  109. Control of Neoclassical Tearing Modes by Sawtooth Control
  110. Response to “Comment on ‘Electron vortices in magnetized plasmas”’ [Phys. Plasmas8, 5061 (2001)]
  111. Electron vortex generation by strong, localized plasma heating
  112. Electron vortices in magnetized plasmas
  113. Erratum to “Further analysis of the electron cyclotron current drive experiments on RTP”
  114. Further analysis of the electron cyclotron current drive experiments on RTP
  115. Ray-tracing through EC resonance and the wave energy flux
  116. On the energy flux of stationary electromagnetic waves in anisotropic dissipative media with spatial dispersion
  117. Wave power flux and ray-tracing in regions of resonant absorption
  118. Chapter 6: Plasma auxiliary heating and current drive
  119. Current-vortex filaments in magnetized plasmas
  120. Current-vortex filament model of nonlinear Alfvén perturbations in a finite-pressure plasma
  121. Comparison of ECE spectra as observed from the high- and low-field side
  122. Electron magnetohydrodynamics of magnetized, inhomogeneous plasma
  123. Electron thermal transport in RTP: filaments, barriers and bifurcations
  124. Role of core losses in drift-vortex interactions
  125. Wave propagation through an electron cyclotron resonance layer
  126. Comments on ‘‘Analysis of electron cyclotron current drive using neoclassical Fokker–Planck code without bounce‐average approximation’’ [Phys. Plasmas 2, 4570 (1995)]
  127. A model for bootstrap current calculations with bounce averaged Fokker-Planck codes
  128. Impact of radial transport on the quasilinear plateau formation due to electron cyclotron wave absorption
  129. Asymmetric wave transmission during electron cyclotron resonant heating
  130. Measurements of soft X-ray spectra in ECR-heated tokamak plasmas and a comparison with Fokker-Planck simulations
  131. Controlled fusion and plasma heating (Report on the 17th European Conference, Amsterdam, The Netherlands, 25–29 June 1990)
  132. Tearing mode stabilization by local current density perturbations
  133. Observations of sawtooth postcursor oscillations in JET and their bearing on the nature of the sawtooth collapse
  134. Fundamental harmonic electron cyclotron emission for hot, loss-cone type distributions
  135. Transport code studies of m=2 mode control by local electron cyclotron heating in TFR
  136. The electron cyclotron resonance experiment on TFR
  137. Sawteeth, transport and electron cyclotron heating in T-10
  138. Requirements on heating or current drive for tearing mode stabilization by current profile tailoring
  139. Electron cyclotron absorption and emission in the presence of a small population of streaming electrons