About
Jennifer Fowlie grows thin – nearly atomic-scale – ceramic crystals with interesting electronic properties like superconductivity and magnetism. Her lab’s goal is to study those properties, understand how they are determined by the structure of the crystal, and learn how to engineer new desirable properties.
Awards
- Early Career Distinguished Presenter, Materials Research Society, 2026
- Searle Teaching Fellow, Northwestern University, 2026
- Rising Stars in Physics, Heising-Simons Foundation, 2023
- Emerging Leader in Condensed Matter Physics, Institute of Physics, 2022
- Postdoc.Mobility Fellowship, Swiss National Science Foundation, 2020
Relevant Publications
- Fowlie J., Li J., Puggioni D., Barreto L., Yuan L. D., Rondinelli J. M., Sutarto R., Boyko T. D., Orlandi F., Manuel P., Khalyavin D., Lomeli E. G., Devereaux T. P., Koroluk S., Green R. J., May S. J., Hwang H. Y. (2026) Biaxial strain control of helimagnetism via chemical expansion in thin film SrFeO₃. arXiv cond-mat preprint 2602.10372
- Fowlie J., Georgescu A. B., Suter A., Mundet B., Toulouse C., Jaouen N., Viret M., Dominguez C., Gibert M., Salman Z., Prokscha T., Alexander D. T. L., Kreisel J., Georges A., Millis A. J., Triscone J.-M. (2023) Metal-insulator transition in composition-tuned nickel oxide films. Journal of Physics: Condensed Matter 35, 304001. https://doi.org/10.1088/1361-648X/accd38
- Fowlie J., Hadjimichael M., Martins M. M., Li D., Osada M., Wang B. Y., Lee K., Lee Y., Salman Z., Prokscha T., Triscone J. M., Hwang H. Y., Suter A. (2022) Intrinsic magnetism in superconducting infinite-layer nickelates. Nature Physics 18, 1043–1048. https://doi.org/10.1038/s41567-022-01641-6