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Simulating weak-field attosecond processes with a Lanczos reduced basis approach to time-dependent equation-of-motion coupled-cluster theory

Andreas S. Skeidsvoll, Torsha Moitra, Alice Balbi, Alexander C. Paul, Sonia Coriani, Henrik Koch

2022Physical review. A/Physical review, A23 citationsDOIOpen Access PDF

Abstract

A time-dependent equation-of-motion coupled-cluster singles and doubles (TD-EOM-CCSD) method is implemented, which uses a reduced basis calculated with the asymmetric band Lanczos algorithm. The approach is used to study weak-field processes in small molecules induced by ultrashort valence pump and core probe pulses. We assess the reliability of the procedure by comparing TD-EOM-CCSD absorption spectra to spectra obtained from the time-dependent coupled-cluster singles and doubles method, and observe that spectral features can be reproduced for several molecules, at much lower computational times. We discuss how multiphoton absorption and symmetry can be handled in the method, and general features of the core-valence separation projection technique. We also model the transient absorption of an attosecond x-ray probe pulse by the glycine molecule.

Topics & Concepts

Lanczos resamplingBasis (linear algebra)PhysicsCluster (spacecraft)Field (mathematics)Lanczos algorithmMotion (physics)Coupled clusterAttosecondEquations of motionStatistical physicsClassical mechanicsQuantum mechanicsMathematicsComputer scienceUltrashort pulseGeometryLaserEigenvalues and eigenvectorsPure mathematicsMoleculeProgramming languageLaser-Matter Interactions and ApplicationsSpectroscopy and Quantum Chemical StudiesQuantum optics and atomic interactions