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Transferring orbital angular momentum to an electron beam reveals toroidal and chiral order

Abstract: Orbital angular momentum (OAM) and torque transfer play central roles in a wide range of magnetic textures and devices including skyrmions and spin-torque electronics. Analogous topological structures are now also being explored in ferroelectrics, including polarization vortex arrays in ferroelectric/dielectric superlattices. Unlike magnetic toroidal order, electric toroidal order does not couple directly to linear external fields. Instead, we find that the presence of an electric toroidal moment in a ferrorotational phase transfers measurable torque and OAM to a localized electron beam in the ballistic limit. We record these torque transfers from a high-energy electron beam using a momentum-resolved detector. This approach provides a high-sensitivity method to detect polarization fields and their more complex order parameters and topologies. In addition to toroidal order, we also demonstrate high-precision measurements of vorticity and chirality for polar vortexlike phases.

 Authorship: Nguyen K.X., Jiang Y., Cao M.C., Purohit P., Yadav A.K., García-Fernández P., Tate M.W., Chang C.S., Aguado-Puente P., Íñiguez J., Gomez-Ortiz F., Gruner S.M., Junquera J., Martin L.W., Ramesh R., Muller D.A.,

 Fuente: Physical Review B, 2023, 107(20), 205419

 Publisher: American Physical Society

 Publication date: 01/05/2023

 No. of pages: 11

 Publication type: Article

 DOI: 10.1103/PhysRevB.107.205419

 ISSN: 1098-0121,1550-235X,2469-9950,2469-9969

 Spanish project: PGC2018-096955-B

 Publication Url: https://doi.org/10.1103/PhysRevB.107.205419

Authorship

NGUYEN, K. X.

JIANG, Y.

CAO, M. C.

PUROHIT, P.

YADAV, A. K.

TATE, M. W.

CHANG, C. S.

ÍÑIGUEZ, J.

FERNANDO GOMEZ ORTIZ

GRUNER, S. M.

RAMESH, R.

MULLER, D. A.