Add to ORKGTo mimic the fusion of hydrogen nuclei in the sun as an energy source on Earth, fusion scientists have to deal with miniature solar flares in their nuclear fusion reactor. These \u27Edge Localized Modes\u27 (ELMs) can damage the wall of the reactor. Physicist Jurrian Boom from the FOM Institute DIFFER researched ELMs with a new detector in the fusion experiment ASDEX Upgrade and investigated what happens when magnetic coils are used to dampen the ELMs. Boom successfully defended his PhD thesis "Characterization of Edge Localized Modes in Tokamak Plasmas" on Wednesday 7 November at Eindhoven University of Technology
DoctorThe study of edge localized modes (ELMs) is one of the most important and interesting subject ...
Edge localized modes (ELM), related to the high confinement regime (H-mode), lead to a degradation o...
Edge localized modes (ELMs) are repetitive instabilities driven by the large pressure gradients and ...
To mimic the fusion of hydrogen nuclei in the sun as an energy source on Earth, fusion scientists ha...
In the early twentieth century, scientists found out what process keeps the Sun burning: nuclear fus...
DoctorThe greatest increase in demand for energy is envisaged to support the growth of industrial ca...
The next generation of fusion machines like ITER and DEMO will need a reliable method for controllin...
This Letter provides information on the spatial and temporal structure of periodic eruptions observe...
Edge localized mode ( ELM) measurements in many tokamaks, including ASDEX-Upgrade, DIII-D, JET, JT-6...
This paper reviews what is known about edge localized modes (ELMs), with an emphasis on their effect...
Edge localised modes (ELMs) are tokamak instabilities that occur in high confinement mode (H-mode) p...
There has been a substantial international research effort in the fusion community to identify tokam...
Edge Locilised Modes (ELMs) are edge phenomena in fusion plasmas that cause small bursts of energy a...
Edge-localized modes (ELMs) are repetitive instabilities that occur in the outer region of tokamak p...
The aim of nuclear fusion energy research is to demonstrate the feasibility of nuclear fusion reacto...
DoctorThe study of edge localized modes (ELMs) is one of the most important and interesting subject ...
Edge localized modes (ELM), related to the high confinement regime (H-mode), lead to a degradation o...
Edge localized modes (ELMs) are repetitive instabilities driven by the large pressure gradients and ...
To mimic the fusion of hydrogen nuclei in the sun as an energy source on Earth, fusion scientists ha...
In the early twentieth century, scientists found out what process keeps the Sun burning: nuclear fus...
DoctorThe greatest increase in demand for energy is envisaged to support the growth of industrial ca...
The next generation of fusion machines like ITER and DEMO will need a reliable method for controllin...
This Letter provides information on the spatial and temporal structure of periodic eruptions observe...
Edge localized mode ( ELM) measurements in many tokamaks, including ASDEX-Upgrade, DIII-D, JET, JT-6...
This paper reviews what is known about edge localized modes (ELMs), with an emphasis on their effect...
Edge localised modes (ELMs) are tokamak instabilities that occur in high confinement mode (H-mode) p...
There has been a substantial international research effort in the fusion community to identify tokam...
Edge Locilised Modes (ELMs) are edge phenomena in fusion plasmas that cause small bursts of energy a...
Edge-localized modes (ELMs) are repetitive instabilities that occur in the outer region of tokamak p...
The aim of nuclear fusion energy research is to demonstrate the feasibility of nuclear fusion reacto...
DoctorThe study of edge localized modes (ELMs) is one of the most important and interesting subject ...
Edge localized modes (ELM), related to the high confinement regime (H-mode), lead to a degradation o...
Edge localized modes (ELMs) are repetitive instabilities driven by the large pressure gradients and ...