The Electron-Ion Collider: the Ultimate Electron Microscope

Answering these basic questions about the constituents of the matter of our everyday world, and related questions about dense nuclear matter, will, as I will discuss, be the scientific focus of the forthcoming Electron-Ion Collider (EIC), a major accelerator that will collide beams of electrons with beams of protons or heavier ions to study the internal workings of nucleons and nuclei.*  The EIC, to be built at Brookhaven National Laboratory, will be world's most powerful electron microscope, with a luminosity comparable to the LHC, with highly polarized electron and proton beams and a center-of-mass energy of some 100 GeV;  its science will be a striking culmination of the study of nuclei by electron scattering begun in the 1950's. 

The accelerator challenges in building the EIC, which I will briefly touch on, are formidable.   The EIC is the only major United States accelerator project in the foreseeable future; its development will preserve and develop capabilities in accelerator technology, for nuclear, material, biological, and chemical sciences, and applied areas, not to mention possible future large-scale accelerator projects in high energy physics.

*To read about the EIC in advance, see the National Research Council/ National Academy of Sciences report, An Assessment of U.S.-Based Electron-Ion Collider Science, which can be freely downloaded from the first URL below, as well as the EIC Users Group White Paper (Nov. 2022) available from the second URL below.