Coherent phonons in a Bi2Se3 film generated by an intense single-cycle THz pulse

Abstract

We report an observation of coherent phonons of Eg1, Eu1, A1g1, and Eg2 symmetry generated in a single-crystal film of Bi2Se3 by an intense single-cycle THz pulse. The atomic vibrations reveal themselves through periodic modulation of the refractive index of the film. The largest signal is detected at the frequency of 4.05 THz that corresponds to the Eg2 mode. The generation of Eg2 phonons is interpreted as resonant excitation of the Raman mode by the second harmonic of THz-driven nonlinear Eu1 oscillator, the fundamental frequency of which (2.05 THz) is approximately half that of Eg2. The origin of nonlinearity in this case is cubic lattice anharmonicity, while generation of Eg1 (1.1 THz) and A1g1 (2.25 THz) phonons is a manifestation of quartic anharmonicity enhanced by the occasional combination relations between phonon frequencies in Bi2Se3.