The role of impurity radiation at the plasma edge of fusion devices is considered. The conditions critical for the development of radiative instabilities leading to the formation of detachment and MARFE and those necessary for the creation of a stable radiating edge, protecting the wall elements from intensive heat loads, are analyzed
The concept of a cold radiating plasma boundary has been proposed as a solution to the problem of po...
High-Z materials as tungsten are intended to be used in future fusion reactors due to their low sput...
The requirements for radiation cooling in a tokamak are discussed and experimental evidence for a pl...
Plasma-wall interaction leads to the release of impurities and neutrals of the working gas, which co...
Plasma radiation plays important role in temperature balance and stability of plasmas at the edge of...
The concept of a cold radiative plasma boundary is presented as a possible solution of the energy ex...
The edge plasma in tokamaks (within the last closed magnetic surface touching the limiter) is studie...
The concept of a cold radiating plasma mantle might help to solve the problem of energy exhaust in a...
The MIST code has been used to model impurity radiation from the edge and core plasmas in ITER and C...
Light impurities transport in tokamak plasma near the edge region One of the important topics in a f...
The concept of a cold radiating plasma mantle might help to solve the problem of energy exhaust in a...
Radiation from Impurities in magnetically confined fusion devices is regularly utilised on existing ...
MasterMonitoring impurity behaviors is extremely important to sustain the burning plasmas such as IT...
Understanding impurity transport in the scrape-o layer (SOL) of tokamak plasmas is a necessary piec...
The concept of a cold radiating plasma boundary has been proposed as a solution to the problem of po...
The concept of a cold radiating plasma boundary has been proposed as a solution to the problem of po...
High-Z materials as tungsten are intended to be used in future fusion reactors due to their low sput...
The requirements for radiation cooling in a tokamak are discussed and experimental evidence for a pl...
Plasma-wall interaction leads to the release of impurities and neutrals of the working gas, which co...
Plasma radiation plays important role in temperature balance and stability of plasmas at the edge of...
The concept of a cold radiative plasma boundary is presented as a possible solution of the energy ex...
The edge plasma in tokamaks (within the last closed magnetic surface touching the limiter) is studie...
The concept of a cold radiating plasma mantle might help to solve the problem of energy exhaust in a...
The MIST code has been used to model impurity radiation from the edge and core plasmas in ITER and C...
Light impurities transport in tokamak plasma near the edge region One of the important topics in a f...
The concept of a cold radiating plasma mantle might help to solve the problem of energy exhaust in a...
Radiation from Impurities in magnetically confined fusion devices is regularly utilised on existing ...
MasterMonitoring impurity behaviors is extremely important to sustain the burning plasmas such as IT...
Understanding impurity transport in the scrape-o layer (SOL) of tokamak plasmas is a necessary piec...
The concept of a cold radiating plasma boundary has been proposed as a solution to the problem of po...
The concept of a cold radiating plasma boundary has been proposed as a solution to the problem of po...
High-Z materials as tungsten are intended to be used in future fusion reactors due to their low sput...
The requirements for radiation cooling in a tokamak are discussed and experimental evidence for a pl...