Research Initiatives
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.
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.
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.
Latest Science Highlights
-
Quasi-2D to 3D Fermi surface topology change in Nd-doped CeCoIn5
5 November 2018
Scientists found that the emergence of an exotic quantum mechanical phase in Ce1-xNdxCoIn5 is due to a shape change in the Fermi surface. This finding ran counter to theoretical arguments and has led investigators in new directions.
-
Destruction of Weyl nodes and a new state in tantalum arsenide above 80 teslas
17 September 2018
Weyl metals such as tantalum arsenide (TaAs) are predicted to have novel properties arising from a chirality of their electron spins. Scientists induced an imbalance between the left- and right-handed spin states, resulting in a topologically protected current. This was the first time this phenomenon, known as the chiral anomaly, has been observed.
-
Pinning and melting of a quantum Wigner crystal
17 September 2018
This research established experimental evidence for the long sought-after transition of a small, two-dimensional sheet of electrons to a solid state.
Featured Publications
Quasi-2D to 3D Fermi surface topology change in Nd-doped CeCoIn5, J. Klotz, et al., Phys. Rev. B Rapid Commun., 98, 081105 (2018) See Science Highlight or Read online
Destruction of Weyl nodes and a New State in TaAs above 80 Teslas, B.J. Ramshaw, et al., Nature Communications, 9: 2217 (2018) See Science Highlight or Read online
Pinning and melting of a quantum Wigner crystal, T. Knighton, et al., Phys Rev B, 97, 085135 (2018) See Science Highlight or Read online
Manipulating the ferryl tilt in a non-heme oxoiron(IV) complex that makes the complex a better oxidant, W. Rasheed, et al., Angew. Chem. Int. Ed., 57, 9387-9391 (2018) See Science Highlight or Read online
1.1 billion-year-old porphyrins evidence photosynthesis 600 million years earlier than previously established, N. Guineli, et al., Proc. Natl. Acad. Sci., 115, 1-9 (2018) See Science Highlight or Read online
Metabolic assessment of migraines using ultra-high magnetic fields, N. Abad, et al., Magnetic Resonance in Medicine, 79(3):1266-1275, (2018) See Science Highlight or Read online
Imaging pH levels with a CoII2 MRI Probe, A. E. Thorarinsdottir, et al., J. Am. Chem. Soc., 139, 15836–15847 (2017) See Science Highlight or Read online
Dirac fermions detected via quantum oscillations, T. Terashima, et al., Physical Review X, 8, 011014 (2018) See Science Highlight or Read online
Phase diagram of URu2–xFexSi2 in high magnetic fields, S. Ran, et al., PNAS, 114, 37, 9826 (2017) See Science Highlight or Read online
-
Safety at the Lab
-
What Scientists Do at the MagLab
