Double vibronic process in the quantum spin ice candidate Tb2Ti2O7 revealed by terahertz spectroscopy

Abstract: The origin of quantum fluctuations responsible for the spin liquid state in Tb2Ti2O7 has remained a long standing problem. By synchrotron-based terahertz measurements, we show evidence of strong coupling between the magnetic and lattice degrees of freedom that provides a path to the quantum melting process. As revealed by hybrid crystal electric field-phonon excitations that appear at 0.67 THz below 200 K, and around 0.42 THz below 50 K, the double vibronic process is unique for Tb 3+ in the titanate family du… Show more

“…In recent terahertz spectroscopy measurements [83], four peaks were found in the THz spectrum: P0 (hω P0 = 1.37 meV), P1 (hω P1 = 1.71 meV), P2 (hω P2 = 2.08 meV), and P3 (hω P3 = 2.78 meV). The energies and temperature dependence of P0 and P2 suggests they are excitations between the members of the ground-state and CEF1 doublets, with equal splitting of each doublet due to magnetoelastic coupling.…”

“…However, our observation of an overall exciton dispersion closely similar to that discussed by Kao et al [42] suggests that ignoring the admixture of excited states will ultimately be unrealistic. Furthermore, given the numerous couplings between phonons now catalogued in Tb 2 Ti 2 O 7 [CEF1 and TAP to produce the MEM discussed here, CEF1 and an overlying optical mode to give a magnetoelastic optical mode (MEOM [16]) observed by a terahertz spectroscopy experiment mentioned further below [83], CEF3 and an optical phonon to produce a MEOM as described in Ref. [16])], the importance of effective coupling of multipoles by phonons [84] should also be assessed.…”

Magnetoelastic excitation spectrum in the rare-earth pyrochlore Tb2Ti2O7

“…In recent terahertz spectroscopy measurements [83], four peaks were found in the THz spectrum: P0 (hω P0 = 1.37 meV), P1 (hω P1 = 1.71 meV), P2 (hω P2 = 2.08 meV), and P3 (hω P3 = 2.78 meV). The energies and temperature dependence of P0 and P2 suggests they are excitations between the members of the ground-state and CEF1 doublets, with equal splitting of each doublet due to magnetoelastic coupling.…”

“…However, our observation of an overall exciton dispersion closely similar to that discussed by Kao et al [42] suggests that ignoring the admixture of excited states will ultimately be unrealistic. Furthermore, given the numerous couplings between phonons now catalogued in Tb 2 Ti 2 O 7 [CEF1 and TAP to produce the MEM discussed here, CEF1 and an overlying optical mode to give a magnetoelastic optical mode (MEOM [16]) observed by a terahertz spectroscopy experiment mentioned further below [83], CEF3 and an optical phonon to produce a MEOM as described in Ref. [16])], the importance of effective coupling of multipoles by phonons [84] should also be assessed.…”

Magnetoelastic excitation spectrum in the rare-earth pyrochlore Tb2Ti2O7

“…Using high-resolution synchrotron-based terahertz spectroscopy, we have probed the lowest energy excitations of Tb2Ti2O7 (see Figure 1). It is revealed that a double hybridization of crystal-fieldphonon modes is present across a broad temperature range from 200 k down to 6 K [1]. This so called vibronic process affects the electronic ground state that can no longer be described solely by electronic wave functions.…”

Spin-Lattice Coupling in the Quantum Spin Ice Candidate Tb2Ti2O7 Revealed by THz Spectroscopy

“…[259][260][261][262][263][264] Due to statistical identity of ground state manifolds of these materials and entropy of ice, these were termed as spin ice materials which possess 2-in 2-out spin configuration on each tetrahedron. [259][260][261][262][263][264] Due to statistical identity of ground state manifolds of these materials and entropy of ice, these were termed as spin ice materials which possess 2-in 2-out spin configuration on each tetrahedron.…”

Terahertz Electrodynamics in Transition Metal Oxides