Research Partners
We’re grateful to collaborate with leading universities and research institutions as part of our broader R&D ecosystem, working together toward a future of scalable, distributed clean energy.
Working on stellarator and coil optimization for nT-Tao’s compact system using the Princeton university DESC code. The collaboration supports integrated plasma–coil design, targeting improved confinement, controlled magnetic structure, and manufacturable three-dimensional coil geometries.
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Developing an Electron Cyclotron Emission (ECE) diagnostic for nT-Tao’s compact stellarators. The system provides time-resolved, non-perturbative measurements of electron temperature in magnetized plasmas, supporting validation of heating, transport, and confinement models under transient operating conditions.
Collaborating on plasma diagnostics including visible and X-ray spectroscopy, Thomson scattering, and interferometry. These tools enable measurement of density, temperature, impurity content, and radiation losses in our pulsed stellarator.
Studying superconducting magnets for pulsed enviroment, focusing on stability, AC losses, and magnetic field homogeneity under rapid, high-power current transients. The work combines simulation and experimental validation relevant to compact pulsed reactors.
Designing and testing power supply systems that drive magnets and inductively couples energy into the plasma. The collaboration addresses real-time control, waveform shaping, and efficient energy transfer for plasma heating and potential stabilization.
