Magnetic field tuning of crystal field levels and vibronic states in Spin-ice Ho2Ti2O7 observed in far-infrared reflectometry

Low temperature optical spectroscopy in applied magnetic fields provides clear evidence of magnetoelastic coupling in the spin ice material Ho2Ti2O7. In IR measurements, we observe field dependent features around 61, 72 and 78 meV, energies corresponding to crystal electronic field doublets. Calculating the electronic band structure based on the crystal field Hamiltonian allows determination of crystal field energies, values for the crystal field parameters, and confirmation that the observed features in IR are consistent with magnetic-dipole-allowed transitions between 5I8 CEF levels. Additionally, we identify a weak field-dependent feature near one of the CEF doublets, which we associate with a vibronic bound state that was previously observed by others in inelastic neutron measurements.