- David Arnold (Columbia): NIMROD validation studies on the HBT-EP tokamak
- Hannes Bergstrom (IPP-Garching): Disruption and runaway electron modeling with JOREK
- Grant Bodner (GA): Disruption mitigation using low-Z shells and low-Z coatings
- Anson Braun (Columbia): Runaway electron mitigation coil design and predictions for the HBT-EP tokamak
- Hari Pal Choudhury (Columbia): The effects of electron cyclotron heating on quiescent relativistic electron plasmas in DIII-D
- B. Stein Lubrano (MIT): Emis3D: a tool for non-axisymmetric radiation modeling and bolometry design
- Mihir Pandya (UW-Madison): Internal measurements of magnetic fluctuations in long lived post-disruption runaway electron beams on DIII-D
- Roger Raman (University of Washington): Design of the electromagnetic particle injector (EPI) for tokamak deployment
- Juan Riquezes (Columbia): Cross-machine comparison of born-rotating mode locking forecaster developed for real-time implementation
- Lucia Rondini (Columbia): Verifying improved particle trapping in negative triangularity plasmas
- Andrew Rothstein (Princeton): Delta-prime stability analysis on kinetic equilibria and real-time tearing mode prediction on DIII-D
- Matthew Tobin (Columbia): Operational space assessment of vertical controllability and predictive capability of a vertical stability metric for disruption avoidance in tokamak plasmas
- Gregorio L. Trevisan (MIT): Initial results of the Gauss separation algorithm for the magnetic field decomposition of the SPARC PRD simulation
- Yanzeng Zhang (LANL): Collisionless cooling of perpendicular electron temperature in a tokamak thermal quench
- Chen Zhao (GA): Simulation of DIII-D disruption with argon pellet injection and runaway electrons