Litcius/Paper detail

Theoretical analysis of the role of complex transition dipole phase in XUV transient-absorption probing of charge migration

Yuki Kobayashi, Daniel M. Neumark, Stephen R. Leone

2022Optics Express17 citationsDOIOpen Access PDF

Abstract

We theoretically investigate the role of complex dipole phase in the attosecond probing of charge migration. The iodobromoacetylene ion (ICCBr + ) is considered as an example, in which one can probe charge migration by accessing both the iodine and bromine ends of the molecule with different spectral windows of an extreme-ultraviolet (XUV) pulse. The analytical expression for transient absorption shows that the site-specific information of charge migration is encoded in the complex phase of cross dipole products for XUV transitions between the I-4 d and Br-3 d spectral windows. Ab-initio quantum chemistry calculations on ICCBr + reveal that there is a constant π phase difference between the I-4 d and Br-3 d transient-absorption spectral windows, irrespective of the fine-structure energy splittings. Transient absorption spectra are simulated with a multistate model including the complex dipole phase, and the results correctly reconstruct the charge-migration dynamics via the quantum beats in the two element spectral windows, exhibiting out-of-phase oscillations.

Topics & Concepts

DipoleExtreme ultravioletAttosecondUltrafast laser spectroscopyAtomic physicsAbsorption (acoustics)Phase (matter)Electric dipole transitionIonMolecular physicsPhysicsCharge (physics)OpticsMaterials scienceMagnetic dipoleLaserUltrashort pulseQuantum mechanicsLaser-Matter Interactions and ApplicationsMass Spectrometry Techniques and ApplicationsSpectroscopy and Quantum Chemical Studies