Emergent phases in Kitaev spin-orbital magnets with Onur Erten

The Kitaev model provides an elegant framework for realizing quantum spin liquids, yet it is notoriously fragile since most perturbations fail to commute with the flux operators. A promising route to overcome this limitation lies in spin-orbital generalizations of the Kitaev model. In this talk, I will discuss the rich landscape of emergent phases stabilized in these systems, with a particular focus on bilayer structures[1,2,3]. I will further show that the coexistence of local and topological order enables the emergence of novel fractional excitations, including fractionalized Goldstone modes[4].

[1] A. Vijayvargia, E. Day-Roberts, A. Botana, O. Erten arXiv:2503.09705.
[2] M. Keskiner, M. Oktel, N. Perkins, O. Erten Mat. Today Quantum, 100038 (2025)
[3] M. Akram, A. Vijayvargia, H. -Y. Kee, O. Erten arXiv: 2507.21226
[4] A. Vijayvargia, E. Nica, R. Moessner, Y. -M. Lu, O. Erten PRR 5 2, L022062 (2023)

Short bio: Onur Erten received his Ph.D. from The Ohio State University. He held postdoctoral positions at Rutgers University and the Max Planck Institute for the Physics of Complex Systems before joining Arizona State University, where he is currently an associate professor. His research focuses on theoretical condensed matter physics, with interests spanning strongly correlated electron systems, quantum magnetism, superconductivity, and topological phases in quantum materials.

Please note that while Condensed Matter / Biophysics Seminars typically fall on Mondays, this seminar will take place on Tuesday, February 3rd at 3pm.