Proton Power Upgrade: twice the power to enable unique neutron science

The Spallation Neutron Source and High Flux Isotope Reactor user facilities at ORNL enable scientists to employ the unique properties of neutrons to advance scientific discovery and address some of the most pressing challenges of our time. 

The Proton Power Upgrade project will double the power capability of the Spallation Neutron Source linear accelerator, from 1.4 to 2.8 megawatts, to facilitate new types of experiments and discoveries. Early project completion is planned for 2024.

The Proton Power Upgrade will:

  • Provide up to 40% more power to existing First Target Station instruments, delivering more neutrons to accelerate the pace of scientific discovery across a wide range of materials and technologies
  • Enable novel neutron experiments, in more extreme environments, using smaller and less-concentrated samples 
  • Leverage existing ORNL facilities and capabilities for maximum cost-effectiveness
  • Power the Second Target Station to provide the world’s brightest “cold” neutrons and enable studies of more complex materials. STS in turn will provide up to 22 new instruments—8 initially—for unprecedented experiments on complex matter with its high-peak brightness beams of “cold” neutrons at high-repetition rates. 

Key Proton Power Upgrade project additions and improvements:

  • 28 superconducting cavities in 7 cryomodules added to the end of the existing linear accelerator to achieve an energy capability of 1.3 GeV
  • 28 high-power, radio-frequency klystrons added to power the new superconducting cavities, as well as upgrades to the existing klystrons
  • 3 high-voltage converter modulators added to drive the new klystrons, as well as upgrades to the existing modulators
  • 2 injection chicane magnets and a new injection dump magnet added to the accumulator ring
  • Extraction kicker magnets equipped with upgraded power supplies
  • Increased First Target Station mercury target capabilities and lifetime using gas injection and jet flow technologies
  • A tunnel stub downstream of the ring added to enable the future tie-in of the Second Target Station beam transport line without interrupting First Target Station operations