In March, the Big Red Ball at WiPPL was operated for an investigation of compressible MHD turbulence proposed by a collaboration of Swarthmore College professor Mike Brown, Swarthmore …

Go to Compressible MHD turbulence studied in high-beta plasmas More

A collaboration between Dr. Luis? Delgado-Aparicio (Princeton Plasma Physics Laboratory), Dr. Lisa Reusch, and Dr. Daniel Den Hartog (UW-Madison) has successfully installed and operated a new soft-x-ray camera based …

Go to Princeton Users See First light from Multi-Energy Soft-X-ray camera More

A group of three scientists from Italy made use of the MST device during a two week stay this spring. ? Dr. Matteo Zuin (Consorzio RFX), Dr. Luigi Cordaro …

Go to Italian visiting scientists commission fusion neutron detector More

A UW-Madison Physics Department research team led by Dr. Brett Chapman was awarded a two-year Major Research Instrumentation grant from the National Science Foundation (NSF) for construction of …

Go to UW-Madison team receives NSF grant for programmable power supply construction More

The Wisconsin Plasma Physics Laboratory (WiPPL) is funded by the DoE Office of Fusion Energy Sciences to operate several multi-investigator, intermediate-scale plasma physics devices, and represents the Plasma Physics efforts within the University of Wisconsin Physics Department. WiPPL serves both UW and external users, and supports the core of a broad research program to understand the flow of energy between fields and particles in plasmas.

WiPPL coordinates the joint operation of the Big Red Plasma Ball (BRB) and Madison Symmetric Torus (MST) devices with a focus on frontier basic plasma science. The combined capabilities of these two devices and their associated infrastructure creates a unique opportunity to lead the world in expanding the basic plasma frontier and to fully realize the extraordinary potential of laboratory experiments to transform space and astrophysical plasma science.

For external users, WiPPL provides a suite of plasma source and diagnostic capabilities on the BRB and MST that manipulate and probe fundamental plasma processes in a variety of geometries. Scientific and technical staff operate the two devices on behalf of all users.

The vision, mission and strategy of WiPPL

Vision: Experimentally advance our understanding of how energy flows between fields and particles in a plasma and thereby advance a major physics frontier while providing an experimental plasma facility with unprecedented range and scope of parameters and operating conditions.

Mission: Push the frontier of experimental plasma physics research, backed by theory and computation, to improve our understanding of natural plasma phenomena while providing an environment for the very best education that only first generation research projects allow.

Strategy: Carry out this mission and vision by

  • Creating and diagnosing plasmas with unique and wide ranging dimensionless parameters and geometries capable of studying energy transformation between forms that are inspired by astrophysical and space plasma phenomena;
  • Promoting collaborative and outreach activities with space and astro physicists through strong connections between astronomy and physics,
  • Exploiting the flexibility of the Big Red Ball and Madison Symmetric Torus devices to address the breadth of topics in energy flow as part of a coordinated multi-investigator Wisconsin Plasma Physics Laboratory (WiPPL) operating as a versatile user facility.

WiPPL and its leadership are fully committed to a diverse, equitable and inclusive research community and follow the policies of the UW Physics Department DEI plan.