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A Three-Dimensional Reconstruction Algorithm for Scanning Transmission Electron Microscopy Data from a Single Sample Orientation (2022)
Journal Article
Brown, H. G., Pelz, P. M., Hsu, S.-L., Zhang, Z., Ramesh, R., Inzani, K., Sheridan, E., Griffin, S. M., Schloz, M., Pekin, T. C., Koch, C. T., Findlay, S. D., Allen, L. J., Scott, M. C., Ophus, C., & Ciston, J. (2022). A Three-Dimensional Reconstruction Algorithm for Scanning Transmission Electron Microscopy Data from a Single Sample Orientation. Microscopy and Microanalysis, 28(5), 1632-1640. https://doi.org/10.1017/s1431927622012090

Increasing interest in three-dimensional nanostructures adds impetus to electron microscopy techniques capable of imaging at or below the nanoscale in three dimensions. We present a reconstruction algorithm that takes as input a focal series of four-... Read More about A Three-Dimensional Reconstruction Algorithm for Scanning Transmission Electron Microscopy Data from a Single Sample Orientation.

Inherent Spin–Polarization Coupling in a Magnetoelectric Vortex (2022)
Journal Article
Das, S., Laguta, V., Inzani, K., Huang, W., Liu, J., Chatterjee, R., McCarter, M. R., Susarla, S., Ardavan, A., Junquera, J., Griffin, S. M., & Ramesh, R. (2022). Inherent Spin–Polarization Coupling in a Magnetoelectric Vortex. Nano Letters, 22(10), 3976-3982. https://doi.org/10.1021/acs.nanolett.2c00496

Solid-state materials are currently being explored as a platform for the manipulation of spins for spintronics and quantum information science. More broadly, a wide spectrum of ferroelectric materials, spanning from inorganic oxides to polymeric syst... Read More about Inherent Spin–Polarization Coupling in a Magnetoelectric Vortex.

Manipulation of spin orientation via ferroelectric switching in Fe-doped Bi2 WO6 from first principles (2022)
Journal Article
Inzani, K., Pokhrel, N., Leclerc, N., Clemens, Z., Ramkumar, S. P., Griffin, S. M., & Nowadnick, E. A. (2022). Manipulation of spin orientation via ferroelectric switching in Fe-doped Bi2 WO6 from first principles. Physical Review B, 105(5), https://doi.org/10.1103/physrevb.105.054434

Atomic-scale control of spins by electric fields is highly desirable for future technological applications. Magnetically doped Aurivillius-phase oxides present one route to achieve this, with magnetic ions substituted into the ferroelectric structure... Read More about Manipulation of spin orientation via ferroelectric switching in Fe-doped Bi2 WO6 from first principles.