Add to ORKGThe snowflake (SF) divertor is a plasma configuration that may enable tokamak operation at high performance and lower peak heat loads on the plasma-facing components than a standard single-null divertor. This paper reports on the results of experiments performed on the TCV tokamak in both the low- and high-confinement regimes, wherein the divertor configuration was continuously varied between a standard single-null and a ‘SF-plus’, which features auxiliary strike points (SPs) in the private flux region of the primary separatrix. The measured edge properties show that, in L-mode, the fraction of the exhaust power reaching the additional SPs is small. During edge-localized modes, up to ~20% of the exhausted energy is redistributed to the addi...
An edge-localized mode (ELM) H-mode regime, supported by electron cyclotron heating, has been succes...
One of the approaches to solve the heat load problem in a divertor tokamak is the so called 'snowfla...
This paper deals with the design of snowflake (SF) plasma configurations in tokamaks. The SF configu...
The snowflake (SF) divertor is a plasma configuration that may enable tokamak operation at high perf...
The snowflake (SF) divertor is a plasma configuration that may enable tokamak operation at high perf...
The transport of heat and particles in a tokamak plasma with a snowflake divertor has been studied i...
TCV experiments demonstrate the basic power exhaust properties of the snowflake (SF) plus and SF min...
Experimental studies of the novel snowflake divertor concept (D. Ryutov, Phys. Plasmas 14 (2007) 064...
To address the risk that, in a fusion reactor, the conventional single-null divertor (SND) configura...
Starting from a standard single null X-point configuration, a second order null divertor (snowflake ...
Starting from a standard single null X-point configuration, a second order null divertor (snowflake ...
The power exhaust through the scrape-off layer (SOL) in fusion reactors is expected to be significan...
An edge-localized mode (ELM) H-mode regime, supported by electron cyclotron heating, has been succes...
One of the approaches to solve the heat load problem in a divertor tokamak is the so called 'snowfla...
This paper deals with the design of snowflake (SF) plasma configurations in tokamaks. The SF configu...
The snowflake (SF) divertor is a plasma configuration that may enable tokamak operation at high perf...
The snowflake (SF) divertor is a plasma configuration that may enable tokamak operation at high perf...
The transport of heat and particles in a tokamak plasma with a snowflake divertor has been studied i...
TCV experiments demonstrate the basic power exhaust properties of the snowflake (SF) plus and SF min...
Experimental studies of the novel snowflake divertor concept (D. Ryutov, Phys. Plasmas 14 (2007) 064...
To address the risk that, in a fusion reactor, the conventional single-null divertor (SND) configura...
Starting from a standard single null X-point configuration, a second order null divertor (snowflake ...
Starting from a standard single null X-point configuration, a second order null divertor (snowflake ...
The power exhaust through the scrape-off layer (SOL) in fusion reactors is expected to be significan...
An edge-localized mode (ELM) H-mode regime, supported by electron cyclotron heating, has been succes...
One of the approaches to solve the heat load problem in a divertor tokamak is the so called 'snowfla...
This paper deals with the design of snowflake (SF) plasma configurations in tokamaks. The SF configu...