Argonne National Laboratory

fundamental interactions

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  • The promise of deep grooves

    A manufacturing technique that could help the semiconductor industry make more powerful computer chips began in the humblest of places — at a lunch table at the U.S. Department of Energy’s (DOE) Argonne National Laboratory.
    Silicon wafers, ranging in size from 4” to 12” diameter, which have been treated using Argonne’s sequential infiltration synthesis method.

  • James C. Osborn

    James specializes in quantum field theory and lattice simulation methods, with an emphasis on lattice QCD.  He also has interests in quantum computing, HPC, sparse linear algebra, applying ML methods to Hybrid Monte Carlo, and random matrix theory.

  • Electrons in the water

    It’s a popular tradition to throw coins into fountains in the hopes of having wishes granted. But what would happen if you could throw” electrons into the water instead? That is, what happens shortly after an electron is injected into water?