Litcius/Paper detail

Strong-Field Bloch Electron Interferometry for Band-Structure Retrieval

Tobias Weitz, Christian Heide, Peter Hommelhoff

2024Physical Review Letters11 citationsDOIOpen Access PDF

Abstract

When Bloch electrons in a solid are exposed to a strong optical field, they are coherently driven in their respective bands where they acquire a quantum phase as the imprint of the band shape. If an electron approaches an avoided crossing formed by two bands, it may be split by undergoing a Landau-Zener transition. We here employ subsequent Landau-Zener transitions to realize strong-field Bloch electron interferometry, allowing us to reveal band structure information. In particular, we measure the Fermi velocity (band slope) of graphene in the vicinity of the K points as (1.07±0.04) nm fs^{-1}. We expect strong-field Bloch electron interferometry for band structure retrieval to apply to a wide range of material systems and experimental conditions, making it suitable for studying transient changes in band structure with femtosecond temporal resolution at ambient conditions.

Topics & Concepts

Bloch oscillationsPhysicsElectronInterferometryElectronic band structureFemtosecondCondensed matter physicsField (mathematics)GrapheneOpticsQuantum mechanicsLaserPure mathematicsMathematicsSpectroscopy and Quantum Chemical StudiesAdvanced Electron Microscopy Techniques and ApplicationsLaser-Matter Interactions and Applications