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Scientists created the Parker spiral – the spiral magnetic field structure of the Sun due to its rotation – in the lab
Injecting pellets into fusion plasma helps repair tears in fusion reactors’ magnetic fields, improving prospects for fusion energy.
3D magnetic fields can help control the plasma edge to prevent damaging bursts of heat and particles from fusion plasma.
Forming a staircase in the edge of the plasmas can boost the performance of a fusion reactor
New high-resolution measurements of tokamaks’ tungsten walls may provide insight into how to better protect the armor material
A test of titanium diboride opens the door to a potential new class of materials for fusion reactor applications.
Mirrored D shape demonstrates surprisingly high pressures in a tokamak, indicating a shape change may be in order for next-generation fusion reactors.
Thin-walled diamond shells carry payloads of boron dust; the dust mitigates destructive plasma disruptions in fusion confinement systems.
The Fusion Recurrent Neural Network reliably forecasts disruptive and destructive events in tokamaks.
First measurements of heat flux in plasmas experientially sheds light on models relying on classical thermal transport.
Scientists tame damaging edge instabilities in steady-state conditions required in a fusion reactor.
A novel experimental geometry at the Linac Coherent Light Source reveals, for the first time, how silicon responds to shocks similar to those in a planet’s core.
