Observation of interband Berry phase in laser-driven crystals.
Ayelet J Uzan-NarovlanskyLior FaeyrmanGraham G BrownSergei ShamesVladimir NarovlanskyJiewen XiaoTalya Arusi-ParparOmer KnellerBarry D BrunerOlga SmirnovaRui E F SilvaBinghai YanÁlvaro Jiménez-GalánMikhail Y IvanovNirit DudovichPublished in: Nature (2024)
Ever since its discovery 1 , the notion of the Berry phase has permeated all branches of physics and plays an important part in a variety of quantum phenomena 2 . However, so far all its realizations have been based on a continuous evolution of the quantum state, following a cyclic path. Here we introduce and demonstrate a conceptually new manifestation of the Berry phase in light-driven crystals, in which the electronic wavefunction accumulates a geometric phase during a discrete evolution between different bands, while preserving the coherence of the process. We experimentally reveal this phase by using a strong laser field to engineer an internal interferometer, induced during less than one cycle of the driving field, which maps the phase onto the emission of higher-order harmonics. Our work provides an opportunity for the study of geometric phases, leading to a variety of observations in light-driven topological phenomena and attosecond solid-state physics.