Negative Triangularity—a Positive for Tokamak Fusion Reactors
New research indicates reversing the conventional shape of plasmas could help with fusion reactor operation.
Alessandro Marinoni: Returning to fusion's D-turn, News
6 Magnetic Confinement Fusion Energy: Bringing Stars to Earth, Plasma Science: Enabling Technology, Sustainability, Security, and Exploration
Earl Marmar MIT Plasma Science and Fusion Center
Earl Marmar MIT Plasma Science and Fusion Center
A brief history of negative triangularity tokamak plasmas
Sandia work at the heart of next-generation nuclear reactor
tf6_arrival_1_small.jpg
a) Trapped particle fraction as a function of for positive and
28th IAEA Fusion Energy Conference (FEC 2020) (10-15 May 2021): The Route to High Performance, DEMO relevant, Negative Triangularity Tokamak Operation on TCV · Indico for IAEA Conferences
EPFL and DeepMind use AI to control plasmas for nuclear fusion
Observation of a new type of self-generated current in magnetized plasmas
PDF) An analytical model of how the negative triangularity cuts off the access to the second stable region in tokamak plasmas
PDF) A brief history of negative triangularity tokamak plasmas
Hot VDE investigation of the negative triangularity plasmas based on HL-2M tokamak - ScienceDirect