Micro Journeys: The Pulse of What’s Next
In this episode of Micro Journeys Inside Access, host Daniel Marrujo takes viewers behind the scenes of one of the most advanced scientific facilities in the United States — the National Synchrotron Light Source 2 (NSLS2) at Brookhaven National Laboratory on Long Island, New York. Joined by Denise Olds from the NSLS2 communications team and a leading beamline scientist, Daniel walks the experimental floor of a facility that serves over 2,300 researchers from around the world annually, exploring how synchrotron light is being used to study everything from quantum materials to structural biology to next-generation energy storage. The NSLS2 sits at the intersection of national security, scientific discovery, and technological innovation — and most of the public has never heard of it. With 29 active beamlines and room for nearly 30 more, the facility is only halfway built out, yet already producing research that shapes medicine, defense, advanced manufacturing, and energy. For Daniel, the visit carries personal weight: his background in spectroscopy and semiconductor characterization at the Defense Microelectronics Activity gives him a firsthand understanding of just how critical these measurement tools are to protecting national interests. The episode makes clear that the science happening inside NSLS2 is not abstract — it is directly connected to the materials, batteries, and electronics that define modern life and national security. What You'll Discover in This Episode [00:43] — How NSLS2 serves over 2,300 unique users per year across fields ranging from structural biology to quantum materials, and why the facility describes its mission as shining light on the world's most challenging problems. [02:51] — What it looks like to walk onto the experimental floor of a live synchrotron beamline, and how the physical design of the facility — including vibration isolation — is engineered down to the nanometer. [03:02] — How the beamline functions as a 120-meter supermicroscope, using coherent X-ray beams narrowed to 40 nanometers to image materials at the atomic scale with three simultaneous detectors. [05:27] — The role of calibration in synchrotron science, including how metal foils and absorption edges are used to tune X-ray energy with extreme precision for spectroscopy studies. [05:41] — How multimodal imaging works in practice — combining fluorescence detection, pixel array detectors, and diffraction detectors simultaneously to capture chemical composition and crystal structure in a single scan. LET’S CONNECT * Daniel Marrujo [https://www.linkedin.com/in/dan-marrujo/] * Denise Olds [https://www.bnl.gov/staff/dyazak] * Hanfei Yan [https://www.bnl.gov/staff/hyan] * TSS Website [https://tss.llc/] Learn more about TSS: https://tss.llc/micro-journeys-podcast/ [https://tss.llc/micro-journeys-podcast/] ---------------------------------------- Hosted on Acast. See acast.com/privacy [https://acast.com/privacy] for more information.
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