Add to ORKGTokamaks are the most promising configuration of magnetic confinement fusion devices. However, a physical phenomenon that leads the plasma out to its operational bounds, called disruption, remains un-avoidable. Disruptions cause the abrupt termination of the discharge and in addition to affecting the execution of the research program, they can constitute a risk for the structural integrity of the machine. Their occur-rences have proven to be unavoidable, particularly in high performance scenarios. In this article two important aspects that can facili-tate the better understanding of the phenomenon are presented. First, the selection of the physical param-eters and their main characteristics related to disrup-tions are reviewed. This feature...
Over the last few years progress has been made on the front of disruption prediction in tokamaks. Th...
Over the last few years progress has been made on the front of disruption prediction in tokamaks. Th...
In view of the future high power nuclear fusion experiments, the early identification of disruptions...
Up to now, the occurrence of disruptions has proven to be an unavoidable aspect of Tokamak operation...
The need for predictive capabilities greater than 95% with very limited false alarms are demanding r...
The sudden loss of the plasma magnetic confinement, known as disruption, is one of the major issue i...
The sudden loss of the plasma magnetic confinement, known as disruption, is one of the major issue i...
The new full-metal ITER-like wall at JET was found to have a deep impact on the physics of disrupti...
Nuclear fusion is one of the best options to achieve a virtually limitless energy source in the futu...
The loss of stability and confinement in tokamak plasmas can induce critical events known as disrupt...
The. physical phenomena leading to disruptions are very. complex and non linear and the present stat...
Identifying a low-dimensional embedding of a high-dimensional data set allows exploration of the da...
Disruptions remain the biggest threat to the safe operation of tokamaks. To efficiently mitigate the...
Over the last few years progress has been made on the front of disruption prediction in tokamaks. Th...
Over the last few years progress has been made on the front of disruption prediction in tokamaks. Th...
In view of the future high power nuclear fusion experiments, the early identification of disruptions...
Up to now, the occurrence of disruptions has proven to be an unavoidable aspect of Tokamak operation...
The need for predictive capabilities greater than 95% with very limited false alarms are demanding r...
The sudden loss of the plasma magnetic confinement, known as disruption, is one of the major issue i...
The sudden loss of the plasma magnetic confinement, known as disruption, is one of the major issue i...
The new full-metal ITER-like wall at JET was found to have a deep impact on the physics of disrupti...
Nuclear fusion is one of the best options to achieve a virtually limitless energy source in the futu...
The loss of stability and confinement in tokamak plasmas can induce critical events known as disrupt...
The. physical phenomena leading to disruptions are very. complex and non linear and the present stat...
Identifying a low-dimensional embedding of a high-dimensional data set allows exploration of the da...
Disruptions remain the biggest threat to the safe operation of tokamaks. To efficiently mitigate the...
Over the last few years progress has been made on the front of disruption prediction in tokamaks. Th...
Over the last few years progress has been made on the front of disruption prediction in tokamaks. Th...
In view of the future high power nuclear fusion experiments, the early identification of disruptions...