In this paper, recent progressive studies on experimental analysis and theoretical models for turbulence phenomena around the transport barriers in high-performance magnetic confined fusion plasma are reviewed. The linkage of radial electric fields and turbulence, the importance of radial electric field curvature, and observations of spatiotemporal turbulence structures are described with related theoretical models
Based on the high-resolution spectroscopic measurements of the radial electric field (Er) in the JT-...
The role of zonal flows in the formation of the transport barrier in the helical plasmas is analyzed...
For several decades magnetic confinement of high-temperature plasmas has been investigated with the ...
Understanding turbulent transport in magnetised plasmas is a subject of great importance for compreh...
In this contribution, two examples of the turbulence interface formation are shown. The first exampl...
The turbulent structure formation, where strongly-inhomogeneous turbulence and global electromagneti...
Turbulent plasmas notably self-organize to higher energy states upon application of additional free ...
The phenomenology of transport barrier formation is reviewed with a focus on physics that may be com...
The interplay between MHD and turbulence is an interesting topic in magnetically confined plasma and...
Modern fusion research aims at making the energy source of the sun accessible for electricity genera...
Transport barrier formation and its relation to sheared flows in fluids and plasmas are of fundament...
The concept of ExB flow velocity shear suppression is utterly fundamental in modern fusion research....
The phenomena caused by the transport of the plasma across the magnetic filed in toroidal devices ar...
Comprehensive first principles modelling of fusion plasmas is a numerically challenging: the complic...
This paper presents results obtained on the Reversed Field eXperiment, RFX [G. Rostagni, Fusion Engi...
Based on the high-resolution spectroscopic measurements of the radial electric field (Er) in the JT-...
The role of zonal flows in the formation of the transport barrier in the helical plasmas is analyzed...
For several decades magnetic confinement of high-temperature plasmas has been investigated with the ...
Understanding turbulent transport in magnetised plasmas is a subject of great importance for compreh...
In this contribution, two examples of the turbulence interface formation are shown. The first exampl...
The turbulent structure formation, where strongly-inhomogeneous turbulence and global electromagneti...
Turbulent plasmas notably self-organize to higher energy states upon application of additional free ...
The phenomenology of transport barrier formation is reviewed with a focus on physics that may be com...
The interplay between MHD and turbulence is an interesting topic in magnetically confined plasma and...
Modern fusion research aims at making the energy source of the sun accessible for electricity genera...
Transport barrier formation and its relation to sheared flows in fluids and plasmas are of fundament...
The concept of ExB flow velocity shear suppression is utterly fundamental in modern fusion research....
The phenomena caused by the transport of the plasma across the magnetic filed in toroidal devices ar...
Comprehensive first principles modelling of fusion plasmas is a numerically challenging: the complic...
This paper presents results obtained on the Reversed Field eXperiment, RFX [G. Rostagni, Fusion Engi...
Based on the high-resolution spectroscopic measurements of the radial electric field (Er) in the JT-...
The role of zonal flows in the formation of the transport barrier in the helical plasmas is analyzed...
For several decades magnetic confinement of high-temperature plasmas has been investigated with the ...