Seeing Structure

Using X-ray diffraction, scientists can now detect atoms moving further apart or closer together in high magnetic fields.

X-ray source (green arrow) with evacuated X-ray beam tunnel (blue arrow) leading to the two-meter-tall 25T Florida Split Helix Magnet (red arrow).

Fungal Findings

New research will guide the development of novel antifungal drugs that target the cell wall molecules to combat life-threatening diseases.

Structural model of fungal cell walls supported by extensive solid-state NMR data.

Applications Open Now

An 7-week virtual program, Research Experiences for Teachers (RET) helps deepen teachers' knowledge of research and the broader scientific community.

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Virtual Classroom Visits

Bring a MagLab educator to your class virtually this school year for FREE outreach lessons or a virtual tour.

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Research Initiatives

Research Initiatives - Materials

MATERIALS

Scientists use our magnets to explore semiconductors, superconductors, newly-grown crystals, buckyballs and materials from the natural world — research that reveals the secret workings of materials and empowers us to develop new technologies.

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Research Initiatives - Energy

ENERGY

Scientists here are working to optimize petroleum refining, advance potential bio-fuels such as pine needles and algae, and fundamentally change the way we store and deliver energy by developing better batteries.

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Research Initiatives - Life

LIFE

With the world’s strongest MRI magnet, scientists here study everything from living animals to individual cells, from proteins to disease-fighting molecules found in plants and animals — work that could improve treatment of AIDS, cancer, Alzheimer’s and other diseases.

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Latest Science Highlights


  • Understanding How Fungi Build Their Cell Walls for Protection
    25 January 2022
    Understanding How Fungi Build Their Cell Walls for Protection

    Scientists have used high-field nuclear magnetic resonance (NMR) to reveal how fungal pathogens use carbohydrates and proteins to build their cell walls (the protective layers outside of the cell). These findings will guide the development of novel antifungal drugs that target the cell wall molecules to combat life-threatening diseases caused by invasive fungal infections.

  • Magnetostriction in AlFe2B2 at 25 T Measured by X-Ray Diffraction
    25 January 2022
    Magnetostriction in AlFe2B2 at 25 T Measured by X-Ray Diffraction

    Using X-ray diffraction, scientists can now detect atoms themselves moving further apart or closer together in high magnetic fields, giving science a crystal clear view of nature.

  • Clues About Unconventional Superconductivity From High-Field Hall Data
    13 December 2021
    Clues About Unconventional Superconductivity From High-Field Hall Data

    In everyday life, phase transitions - like when water boils and turns into steam or freezes and becomes ice -  are caused by changes in temperature. Here, very high magnetic fields are used to reveal a quantum phase transition not caused by temperature, but instead driven by quantum mechanics upon changing the concentration of electrons, work that could hold critical clues that explain high-temperature superconductivity.

     

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Featured Publications


Magnetostriction in AlFe2B2 at 25 T Measured by X-Ray Diffraction, S. Sharma, et al., Physical Review Materials, 5, 064409 (2021), See Science Highlight or Read online 

Understanding How Fungi Build Their Cell Walls for Protection, A. Chakraborty, et al., Nature Communications, 12, 6346 (2021), See Science Highlight or Read online 

Quantum Rivals in Nitride Materials, P. Dang, et al., Science Advances, 7 (8), eabf1388 (2021), See Science Highlight or Read online 

Nb3Sn films via a novel hot-bronze method for compact accelerators, W. K. Withanage, et al., Superconductor Science and Technology, 34 (6), 06LT01 (2021), See Science Highlight or Read online 

Unusual high-field state discovered in mineral atacamite, L. Heinze, et al., Physical Review Letters, 126 (20), 207201 (2021), See Science Highlight or Read online 

Sunlight converts plastics into diverse chemical mixtures, A. N. Walsh, et al., Environ. Sci. Technol., 55 (18), 12383–12392 (2021), See Science Highlight or Read online 

Absence of Weak-Links in Bi-2212 Round Wire, Y. Oz, et al., Phys. Rev. Materials, 5(7), 074803 (2021), See Science Highlight or Read online 

Advanced Microscopy for Better Nanostructural Insights in Bi-2212 Round Wires, T.A. Oloye, et al., Supercond. Sci. Technol., 34035018 (2021), See Science Highlight or Read online 

Restoration of breathing after drug overdose and spinal cord injuries, M.D. Sunshine, et al., Communications Biology, 4 (1), 1-15 (2021), See Science Highlight or Read online 

Linear-in temperature resistivity from isotropic Planckian scattering rate, G. Grissonnanche, et al., Nature, 595, 667-672 (2021), See Science Highlight or Read online 

Testing the Critical Current of High-Temperature-Superconducting REBCO Cables Using a Superconducting Transformer, H. Yu, et al., IEEE Transactions on Applied Superconductivity, 30 (4), 5500204 (2020), See Science Highlight or Read online