Fingerprints of supersymmetric spin and charge dynamics observed by   inelastic neutron scattering

Bj\"orn Wehinger; Franco T. Lisandrini; Noam Kestin; Pierre Bouillot,; Simon Ward; Benedikt Thielemann; Robert Bewley; Martin Boehm; Daniel Biner,; Karl W. Kr\"amer; Bruce Normand; Thierry Giamarchi; Corinna Kollath; Andreas; M. L\"auchli; Christian R\"uegg

arXiv:2408.12626·cond-mat.str-el·April 11, 2025

Fingerprints of supersymmetric spin and charge dynamics observed by inelastic neutron scattering

Bj\"orn Wehinger, Franco T. Lisandrini, Noam Kestin, Pierre Bouillot,, Simon Ward, Benedikt Thielemann, Robert Bewley, Martin Boehm, Daniel Biner,, Karl W. Kr\"amer, Bruce Normand, Thierry Giamarchi, Corinna Kollath, Andreas, M. L\"auchli, Christian R\"uegg

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TL;DR

This study observes supersymmetric spin and charge dynamics in quantum spin ladders using neutron scattering, revealing unique thermal broadening behaviors and a persistent zone-centre pole as experimental evidence of supersymmetry in condensed matter.

Contribution

It provides the first experimental observation of supersymmetric analogues in condensed matter systems through neutron spectroscopy and theoretical modeling.

Findings

01

Differences in thermal broadening between supersymmetric and non-supersymmetric sectors.

02

Persistence of a zone-centre pole at all temperatures as an observable supersymmetry signature.

03

Application of matrix-product-state methods to analyze spin ladder dynamics.

Abstract

Supersymmetry is an algebraic property of a quantum Hamiltonian that, by giving every boson a fermionic superpartner and vice versa, may underpin physics beyond the Standard Model. Fractional bosonic and fermionic quasiparticles are familiar in condensed matter, as in the spin and charge excitations of the $t$ - $J$ model describing electron dynamics in one-dimensional materials, but this type of symmetry is almost unknown. However, the triplet excitations of a quantum spin ladder in an applied magnetic field provide a supersymmetric analogue of the $t$ - $J$ chain. Here we perform neutron spectroscopy on the spin-ladder compounds (C $_{5}$ D $_{12}$ N) $_{2}$ CuBr $_{4}$ and (C $_{5}$ D $_{12}$ N) $_{2}$ CuCl $_{4}$ over a range of applied fields and temperatures, and apply matrix-product-state methods to the ladder and equivalent chain models. From the momentum-resolved dynamics of a single charge-like excitation…

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Taxonomy

TopicsQuantum, superfluid, helium dynamics · Advanced NMR Techniques and Applications · Inorganic Fluorides and Related Compounds