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      • DEMAND | Dimensional Extreme Magnetic Neutron Diffractometer | HB-3A
      • DEV BEAMS | Instrument Development Beamline | HB-2D CG-1A CG-1B CG-4B
      • GP-SANS | General-Purpose Small-Angle Neutron Scattering Diffractometer | CG-2
      • HIDRA | High Intensity Diffractometer for Residual stress Analysis | HB-2B
      • IMAGINE | Laue Diffractometer | CG-4D
      • MARS | Multimodal Advanced Radiography Station | CG-1D
      • POWDER | Neutron Powder Diffractometer | HB-2A
      • PTAX | Polarized Triple-Axis Spectrometer | HB-1
      • TAX | Triple-Axis Spectrometer | HB-3
      • VERITAS | Versatile Intense Triple-Axis Spectrometer | HB-1A
      • WAND² | Wide-Angle Neutron Diffractometer | HB-2C
    • Spallation Neutron Source
      • ARCS | Wide Angular-Range Chopper Spectrometer | BL-18
      • BASIS | Backscattering Spectrometer | BL-2
      • CNCS | Cold Neutron Chopper Spectrometer | BL-5
      • CORELLI | Elastic Diffuse Scattering Spectrometer | BL-9
      • EQ-SANS | Extended Q-Range Small-Angle Neutron Scattering Diffractometer | BL-6
      • FNPB | Fundamental Neutron Physics Beam Line | BL-13
      • HYSPEC | Hybrid Spectrometer | BL-14B
      • LIQREF | Liquids Reflectometer | BL-4B
      • MAGREF | Magnetism Reflectometer | BL-4A
      • MANDI | Macromolecular Neutron Diffractometer | BL-11B
      • NOMAD | Nanoscale-Ordered Materials Diffractometer | BL-1B
      • NSE | Neutron Spin Echo Spectrometer | BL-15
      • POWGEN | Powder Diffractometer | BL-11A
      • SEQUOIA | Fine-Resolution Fermi Chopper Spectrometer | BL-17
      • SNAP | Spallation Neutrons and Pressure Diffractometer | BL-3
      • TOPAZ | Single-Crystal Diffractometer | BL-12
      • USANS | Ultra-Small-Angle Neutron Scattering Instrument | BL-1A
      • VENUS | Versatile Neutron Imaging Instrument | BL-10
      • VISION | Vibrational Spectrometer | BL-16B
      • VULCAN | Engineering Materials Diffractometer | BL-7
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Home » All News

All News

  • Background image represents the cobalt oxide structure Goodenough demonstrated could produce four volts of electricity with intercalated lithium ions. This early research led to energy storage and performance advances in myriad electronic applications. (Credit: ORNL/Jill Hemman)
    Nobel winners’ ongoing research benefits from ORNL neutron science
    October 11, 2019
  • This is the configurational ensemble (a collection of 3D structures) of an intrinsically disordered protein, the N-terminal of c-Src kinase, which is a major signaling protein in humans. Image credit: ORNL
    Titan supercomputer and Spallation Neutron Source unite to probe the inner workings of c-Src kinase
    October 7, 2019
  • Science at the Second Target Station Workshop
    Science at the Second Target Station Workshop
    October 3, 2019
  • Webinar: Initial Instrument Concepts for Spallation Neutron Source Second Target Station
    Webinar: Initial Instrument Concepts for Spallation Neutron Source Second Target Station
    October 2, 2019
  • Gabrielle Boudreau is a user facilities analyst at Oak Ridge National Laboratory (ORNL), where she analyzes and compiles data from the lab’s Neutron Sciences user programs, including publication and experiment metrics. Before working in the Neutron Sciences User Office, Boudreau managed the laboratory research library’s information systems. She has worked at ORNL for 28 years. (Credit: ORNL/Genevieve Martin)
    Inside the Innovations: Gabrielle Boudreau, user facilities analyst
    September 23, 2019
  • University of Nebraska-Lincoln researchers Xiang Zhang (left) and Prof. Bai Cui use neutron diffraction to study the microstructure and residual stress characterizations of additively manufactured ceramic materials. (Credit: ORNL/Carlos Jones)
    From ancient pottery to fiber optics, ceramics keep evolving—now with lasers and neutrons
    September 18, 2019
  • Tim Carroll is a technical specialist with the survey and alignment group at Oak Ridge National’ Laboratory (ORNL). He enjoys live music, camping, kayaking, and playing ‘Vintage Baseball.  Tim has worked at ORNL for 14 years and previously at Brookhaven National Lab for 12 years. (Credit: ORNL/Genevieve Martin)
    Inside the Innovations: Tim Carroll, survey & alignment technician
    September 12, 2019
  • Image credit: Carlos Jones, ORNL
    New materials for sensors, computers, encryption and more
    September 10, 2019
  • Karon Foster is a building services coordinator at Oak Ridge National Laboratory (ORNL), handling requests for the Spallation Neutron Source (SNS) office buildings. She is known among SNS staff as the “go-to” problem solver for any facility issues. Foster has worked at ORNL for 15 years. (Credit: ORNL/Genevieve Martin)
    Inside the Innovations: Karon Foster, building services coordinator
    September 5, 2019
  • Quantum scientist Huibo Cao.
    Unveiling quantum materials with neutrons
    September 5, 2019
  • Matt Howell is the lead engineer for superconducting linear accelerator systems at Oak Ridge National Laboratory (ORNL). When he’s not working, Howell also raises and trains American saddlebreds, many of whom have competed in world championships. Howell has worked at ORNL for 17 years. (Credit: ORNL/Genevieve Martin)
    Inside The Innovations: Matt Howell, lead engineer for superconducting linear accelerator systems
    August 29, 2019
  • ORNL’s Kate Page, left, received a PECASE citation from Kelvin Droegemeier, Director of The White House Office of Science and Technology Policy. Credit: Donica Payne/U.S. Dept. of Energy
    Two ORNL researchers receive presidential early career award
    August 27, 2019
  • Rhonda Moody is a Scientific Laboratory Technician at Oak Ridge National Laboratory (ORNL)’s Spallation Neutron Source, where she helps visiting researchers run successful experiments. Moody paints in her spare time and has exhibited her work at First Friday events in downtown Knoxville. She has worked at ORNL for 11 years. (Credit: ORNL/Genevieve Martin)
    Inside the Innovations: Rhonda Moody, Scientific Laboratory Technician
    August 20, 2019
  • Bryan Chakoumakos and Xiaoping Wang
    ACA recognizes ORNL's Chakoumakos, Wang
    August 20, 2019
  • Phong Nguyen is a Radiological Control Technician at Oak Ridge National Laboratory (ORNL), where he ensures that visitors and personnel at the High Flux Isotope Reactor stay safe and exercise caution around radiation. He enjoys swimming, going to the gym, and watching Louisiana State University football games. Phong has worked at ORNL for 26 years. (Credit: ORNL/Genevieve Martin)
    Inside the Innovations: Phong Nguyen, Radiological Control Technician
    August 12, 2019
  • Neutrons shed light on industrial catalyst for hydrogen production
    Neutrons shed light on industrial catalyst for hydrogen production
    August 6, 2019
  • Jeremy Price is a vacuum systems team leader at Oak Ridge National Laboratory (ORNL), managing the team who designs and operates vacuum systems for the Spallation Neutron Source’s linear accelerator. Price was an intern at ORNL while studying mechanical engineering and was inspired by his experience at the lab to pursue a career in vacuum systems. He has worked at ORNL for 13 years. (Credit: ORNL/Genevieve Martin)
    Inside the Innovations: Jeremy Price, Vacuum Systems Team Leader
    August 5, 2019
  • Bryan Owens-Baird, a graduate student researcher from Iowa State University, prepares to study one of his samples, a powdered compound of phosphorous, silicon, and tin, with the NOMAD instrument at ORNL’s Spallation Neutron Source. (Credit: ORNL/ Genevieve Martin)
    Researchers raise the heat on molten metals to forge future technologies
    July 30, 2019
  • Leah Broussard leads a study of neutron decay to understand correlations between electrons and antineutrinos as well as subtle distortions in the electron energy spectrum. The physicist, who hails from Louisiana, influenced the color scheme of the experiment’s newly installed instrument to reflect her home state’s biggest celebration—its spectrometer sports Mardi Gras green on the magnet, purple on the shielding, and gold inside the magnet and on safety bars. Credit: Genevieve Martin/Oak Ridge National Labo
    Leah Broussard: Breaking the Standard Model to Fix Understanding of the Universe
    July 26, 2019
  • Artistic rendering of the VENUS imaging beamline under construction at ORNL’s Spallation Neutron Source. VENUS will provide impactful insights into research areas such as those featured, including nuclear fuels such as uranium (left), additively manufactured materials, biological processes, engineered components, studies of archeological and natural materials. (Credit: ORNL/Jill Hemman)
    Eyes on VENUS: ORNL to deliver unique US neutron imaging capability for science discovery
    July 23, 2019

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        • HFIR Celebrates 60 Years
        • News Stories
        • Science Highlights
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        • SNS - Take a Virtual Tour
        • SNS Klystron Gallery - Take a Virtual Tour
        • HFIR - Take a Virtual Tour
      • Neutron Nexus
        • Nexus Program Overview
        • Neutron Ambassador Program
        • New User Beamtime (NUBe) Program
        • Why Neutrons? See Basic2Breakthrough Video
        • A Glimpse into Neutron Sciences at ORNL
      • Educational Opportunities
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        • See Neutron Sciences Open Positions
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    • Future
      • Overview
      • Projects & Upgrades
        • Second Target Station
        • HFIR Beryllium Reflector Replacement
        • HFIR Cold Guide Hall Extension
        • HFIR Pressure Vessel Replacement Project
        • HFIR & SNS 5-Year Working Schedule
    • Science
      • Science
        • Overview
        • Science Highlights
      • Science Initiatives
        • Biological Materials and Systems
        • Chemistry
        • Geochemistry and Environmental Sciences
        • Computing, Modeling, and Data Analytics
        • Physics of Matter under Extremes
        • Materials and Engineering
        • Quantum Materials
        • Soft Matter and Polymers
      • Science Techniques
        • Neutron Scattering
          • Diffraction
          • Imaging
          • Reflectometry
          • Small Angle Neutron Scattering
          • Spectroscopy
        • Nuclear
          • Gamma Irradiation
          • In-Vessel Irradiation
          • Nuclear Forensics (Neutron Activation Analysis)
    • For Users
      • Introduction
        • Overview
        • Contact Us
      • Become A User
        • How to Submit a Proposal
        • Proposal Types
        • Proposal Writing Tips
        • IPTS Proposal Form
        • Integrated Proposal Tracking System (IPTS)
        • Proposal Statistics
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      • High Flux Isotope Reactor
        • BIO-SANS | Biological Small-Angle Neutron Scattering Instrument | CG-3
        • CTAX | Cold Neutron Triple-Axis Spectrometer | CG-4C
        • DEMAND | Dimensional Extreme Magnetic Neutron Diffractometer | HB-3A
        • DEV BEAMS | Instrument Development Beamline | HB-2D CG-1A CG-1B CG-4B
        • GP-SANS | General-Purpose Small-Angle Neutron Scattering Diffractometer | CG-2
        • HIDRA | High Intensity Diffractometer for Residual stress Analysis | HB-2B
        • IMAGINE | Laue Diffractometer | CG-4D
        • MARS | Multimodal Advanced Radiography Station | CG-1D
        • POWDER | Neutron Powder Diffractometer | HB-2A
        • PTAX | Polarized Triple-Axis Spectrometer | HB-1
        • TAX | Triple-Axis Spectrometer | HB-3
        • VERITAS | Versatile Intense Triple-Axis Spectrometer | HB-1A
        • WAND² | Wide-Angle Neutron Diffractometer | HB-2C
      • Spallation Neutron Source
        • ARCS | Wide Angular-Range Chopper Spectrometer | BL-18
        • BASIS | Backscattering Spectrometer | BL-2
        • CNCS | Cold Neutron Chopper Spectrometer | BL-5
        • CORELLI | Elastic Diffuse Scattering Spectrometer | BL-9
        • EQ-SANS | Extended Q-Range Small-Angle Neutron Scattering Diffractometer | BL-6
        • FNPB | Fundamental Neutron Physics Beam Line | BL-13
        • HYSPEC | Hybrid Spectrometer | BL-14B
        • LIQREF | Liquids Reflectometer | BL-4B
        • MAGREF | Magnetism Reflectometer | BL-4A
        • MANDI | Macromolecular Neutron Diffractometer | BL-11B
        • NOMAD | Nanoscale-Ordered Materials Diffractometer | BL-1B
        • NSE | Neutron Spin Echo Spectrometer | BL-15
        • POWGEN | Powder Diffractometer | BL-11A
        • SEQUOIA | Fine-Resolution Fermi Chopper Spectrometer | BL-17
        • SNAP | Spallation Neutrons and Pressure Diffractometer | BL-3
        • TOPAZ | Single-Crystal Diffractometer | BL-12
        • USANS | Ultra-Small-Angle Neutron Scattering Instrument | BL-1A
        • VENUS | Versatile Neutron Imaging Instrument | BL-10
        • VISION | Vibrational Spectrometer | BL-16B
        • VULCAN | Engineering Materials Diffractometer | BL-7
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