Litcius/Paper detail

Quasiparticle picture for high-harmonic generation in correlated electron systems

Kai Huang, Tao-Yuan Du

2023Physical review. B./Physical review. B10 citationsDOI

Abstract

The key optical and electronic functionalities in condensed materials are determined by the band filling of electrons and their Coulomb correlations. To directly capture how many-body correlations influence the correlated electron dynamics under the driving of laser pulses, the comprehensible quasiparticle picture is desired to distinguish the ultrafast creation and annihilation of doublon-holon pairs in attosecond timescale. Here, we adopt the one-dimensional non-half-filling Hubbard model to study the high-harmonic generation (HHG) in correlated electron systems. As the value of Hubbard $U$ increases, the cutoff energy and spectral features in HHG spectra have been revealed and their scaling laws are explained by the characteristic energy gaps obtained from the electronic bands under the quasiparticle picture. The adjustable degree of band filling in correlated systems paves a way to enhance high-harmonic emissions by regulating the creation of doublon-holon pairs. The complex temporal profile of HHG is elucidated in this work by the light-induced evolution of quasiparticle bands in correlated materials. In addition, the dephasing of the HHG spectrum caused by the vibration-induced disorder or lattice temperature is affirmed in the correlated electron systems and this dephasing process is attributed to quasiparticle-lattice scattering during the doublons and holons propagating among the disordered lattice sites.

Topics & Concepts

QuasiparticlePhysicsDephasingAttosecondElectronCondensed matter physicsHigh harmonic generationStrongly correlated materialDelocalized electronUltrashort pulseQuantum mechanicsLaserSuperconductivityLaser-Matter Interactions and ApplicationsAdvanced Chemical Physics StudiesSpectroscopy and Quantum Chemical Studies