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Acoustic signatures of the field-induced electronic-topological transitions in YbNi$_4$P$_2$

We investigated the magnetoelastic properties of an YbNi$_4$P$_2$ single crystal at low temperatures under magnetic fields directed along the crystallographic [001] axis. We report a series of strong anomalies in the sound velocity, which is consistent with the cascade of electronic-topological transitions reported previously for this compound. In particular, we identify the vanishing of a small orbit on the Fermi surface, associated with a quantum-oscillation frequency of 34 T. Furthermore, the different transitions are better resolved with acoustic modes of particular symmetry. Using a microscopic model adapted to the strongly correlated electronic structure of YbNi$_4$P$_2$, we describe our results by inspecting realistic electron-phonon couplings in reciprocal space for each acoustic mode. This shows how the $k$ selectivity of ultrasound experiments allows to investigate Fermi-surface reconstructions in strongly correlated electronic systems.

preprint2026arXivOpen access
E. -O. EljaouhariB. V. SchwarzeK. KliemtC. KrellnerF. HusstedtJ. WosnitzaS. ZherlitsynG. ZwicknaglJ. Sourd
cond-mat.str-el
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Open access9 authors1 topic
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E. -O. EljaouhariB. V. SchwarzeK. KliemtC. KrellnerF. HusstedtJ. WosnitzaS. ZherlitsynG. ZwicknaglJ. Sourd

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