Phil Travis
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View article: Machine-learned trends in mirror configurations in the large plasma device
Machine-learned trends in mirror configurations in the large plasma device Open
This study demonstrates the efficacy of machine learning (ML)-based trend inference using data from the large plasma device (LAPD). The LAPD is a flexible basic plasma science device with a high discharge repetition rate (0.25–1 Hz) and re…
View article: Turbulence and transport in mirror geometries in the Large Plasma Device
Turbulence and transport in mirror geometries in the Large Plasma Device Open
Thanks to advances in plasma science and enabling technology, mirror machines are being reconsidered for fusion power plants and as possible fusion volumetric neutron sources. However, cross-field transport and turbulence in mirrors remain…
View article: Turbulence and transport in mirror geometries in the Large Plasma Device
Turbulence and transport in mirror geometries in the Large Plasma Device Open
Thanks to advances in plasma science and enabling technology, mirror machines are being reconsidered for fusion power plants and as possible fusion volumetric neutron sources. However cross-field transport and turbulence in mirrors remains…
View article: Design of the Lanthanum hexaboride based plasma source for the large plasma device at UCLA
Design of the Lanthanum hexaboride based plasma source for the large plasma device at UCLA Open
The Large Plasma Device (LAPD) at UCLA (University of California, Los Angeles) produces an 18 m long, magnetized, quiescent, and uniform plasma at a high repetition rate to enable studies of fundamental plasma physics. Here, we report on a…