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The first experimental discovery in the world of the propagation of plasma turbulence
by Staff Writers
Tokyo, Japan (SPX) Jun 20, 2018

(left) There is no or small turbulence due to the almost zero temperature gradient inside the crescent-shaped magnetic island. (right) Turbulence propagates inside the magnetic island faster than the heat pulse.

In seeking to achieve fusion energy, research on magnetic field confinement of high-temperature plasma is being conducted around the world. In a high-temperature plasma there is a temperature gradient. When the temperature gradient becomes steep, turbulence is generated.

Because the high-temperature regions and the low temperature areas are mixed due to the turbulence, the core temperature cannot be effectively raised. Thus, research on the generation and on the suppression of turbulence is being performed around the world on experimental devices of magnetically confined plasma (tokamaks and helical devices).

In research to date, numerous turbulences have been observed. It was very difficult to distinguish whether that turbulence occurred at that place or whether it occurred at another place and propagated to that place. That the turbulence generated expands into other regions, that is, the phenomenon called "turbulence propagation" has been predicted theoretically, but has not been observed experimentally.

The research group of Professor Katsumi Ida and Professor Tatsuya Kobayashi of the National Institutes of Natural Sciences (NINS) National Institute for Fusion Science (NIFS) and United States collaborators conducted research on turbulence propagation in the Doublet III-D tokamak of General Atomics, in the United States.

By applying "heat pulse modulation method" conceived in the Large Helical Device (LHD) at NIFS to measure turbulence in a special region, the "magnetic island," where turbulence should not be generated because there is no temperature gradient in the magnetic island.

They discovered that the turbulence exists in the magnetic island, and propagates faster toward the center of the magnetic island, which is called the O-point, than the modulated temperature change. Thus "turbulence propagation" was observed for the first time in the world.

This result is valuable because of the experimental demonstration of a new way of thinking regarding the suppression of turbulence using the idea of "propagation of turbulence." And that an article has been published in the famous academic journal Physical Review Letters is evidence of the high level of world class research.

In the future we will continue to improve high-performance plasma through accumulating further knowledge on the suppression of turbulence.

Research paper


Related Links
National Institutes of Natural Sciences
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ENERGY TECH
New model sheds light on key physics of magnetic islands that halt fusion reactions
Plainsboro NJ (SPX) Jun 11, 2018
Magnetic islands, bubble-like structures that form in fusion plasmas, can grow and disrupt the plasmas and damage the doughnut-shaped tokamak facilities that house fusion reactions. Recent research at the U.S. Department of Energy's (DOE) Princeton Plasma Physics Laboratory (PPPL) has used large-scale computer simulations to produce a new model that could be key to understanding how the islands interact with the surrounding plasma as they grow and lead to disruptions. The findings, which overturn ... read more

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