Experimental Observation of Quantum Many-Body Excitations of E8 Symmetry in the Ising Chain Ferromagnet CoNb2O6

Abstract

Close to the quantum critical point of the transverse-field Ising spin-chain model, an exotic dynamic spectrum was predicted to emerge upon a perturbative longitudinal field. The dynamic spectrum consists of eight particles and is governed by the symmetry of the E8 Lie algebra. Here we report on high-resolution terahertz spectroscopy of quantum spin dynamics in the ferromagnetic Ising-chain material CoNb2O6. At 0.25 K in the magnetically ordered phase we identify characteristics of the first six E8 particles, m1 to m6, and the two-particle (m1+m2) continuum in an applied transverse magnetic field of Bc1D=4.75 T, before the three-dimensional magnetic order is suppressed above Bc3D≈ 5.3 T. The observation of the higher-energy particles (m3 to m6) above the low-energy two-particle continua features quantum many-body effects in the exotic dynamic spectrum.