AI Article Synopsis
- Correlated topological phases (CTPs) in quantum materials, particularly correlated Weyl semimetals (WSMs), are gaining attention in condensed matter physics, although their experimental study is limited.
- This study reports the first experimental evidence of a correlated magnetic WSM state in strained pyrochlore iridate Pr Ir O (PIO), which exhibits a unique all-in-all-out antiferromagnetic ordering that breaks time-reversal symmetry.
- Analysis suggests that PIO demonstrates an interacting Weyl liquid state with logarithmic renormalization of the Fermi velocity, influenced by long-range Coulomb interactions, indicating significant potential for strain-engineering CTPs in these materials.
Article Abstract
Correlated topological phases (CTPs) with interplay between topology and electronic correlations have attracted tremendous interest in condensed matter physics. Therein, correlated Weyl semimetals (WSMs) are rare in nature and, thus, have so far been less investigated experimentally. In particular, the experimental realization of the interacting WSM state with logarithmic Fermi velocity renormalization has not been achieved yet. Here, experimental evidence of a correlated magnetic WSM state with logarithmic renormalization in strained pyrochlore iridate Pr Ir O (PIO) which is a paramagnetic Luttinger semimetal in bulk, is reported. Benefitting from epitaxial strain, "bulk-absent" all-in-all-out antiferromagnetic ordering can be stabilized in PIO film, which breaks time-reversal symmetry and leads to a magnetic WSM state. With further analysis of the experimental data and renormalization group calculations, an interacting Weyl liquid state with logarithmically renormalized Fermi velocity, similar to that in graphene, is found, dressed by long-range Coulomb interactions. This work highlights the interplay of strain, magnetism, and topology with electronic correlations, and paves the way for strain-engineering of CTPs in pyrochlore iridates.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11468559 | PMC |
| http://dx.doi.org/10.1002/adma.202008528 | DOI Listing |
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