I 1.1    Yuanxi Wan:   Road map of Chinese Fusion Research and the first Chinese fusion reactor - CFETR

I 2.2    Katsumi Ida:  Overview of Experimental Results from Stellarators

I 2.3    David Terranova:  Overview of Experimental Results from RFX

I 3.1    Thomas Sunn Pedersen: Divertor Physics in Stellarators

I 3.2    Oliver Schmitz: Divertor Physics in Tokamak with 3D Perturbation Fields

O 3.1    Tom Bird:  Turbulent transport in 3D geometry: from Tokamaks to Stellarators

I 3.3    Taina Kurki-Suonio: 3D effect on fast ion confinement and the resulting fast ion heat loads on first wall components

I 3.4  Manuel Garcia-Munoz:  Fast-ion dynamics induced by 3D edge perturbations, ELMs and MPs, in the ASDEX Upgrade tokamak

I 3.5    Yann Camenen:  3D Effects on Plasma Rotation and Momentum Transport

I 4.1    Yasuhiro Suzuki:  3D MHD Equilibrium in Stellarator

I 4.2   Jonathan Graves:  3D tokamak equilibrium states and the impact on fast ion confinement

I 4.3   Erika Strumberger:  MHD instabilities in tokamaks with 3D effects

I 4.4     Yunfeng Liang:  3D Effects on Edge MHD and Control

I 4.5     Valentin Igochine:  3D Effects on RWM and Control

I 4.6    Yuhong Xu:  Impact of RMP on edge turbulence, turbulent transport, and zonal flows in tokamak

I 4.7    Tim Hender:  3D Effects on Disruptions and their Mitigation

I 5.1    Robert Wolf:  Operational Limits in Stellarators

I 5.2     Hans Rudolf Koslowski:  Operational Limits in Tokamaks

O 5.1     Long Zeng:  Runaway generation and losses during disruptions in the TEXTOR tokamak

I 6.1    Piero Martin:  Advantages and Disadvantages of 3D Effects in Magnetically Controlled Fusion Plasmas