Litcius/Paper detail

Helicity-dependent time delays in multiphoton ionization by two-color circularly polarized laser fields

Qinghua Ke, Yueming Zhou, Yijie Liao, Jintai Liang, Yong Zhao, Jia Tan, Min Li, Peixiang Lu

2021Frontiers of Physics11 citationsDOI

Abstract

By numerically solving the three-dimensional time-dependent Schrödinger equation, we have investigated multiphoton ionization of hydrogen atom in the two-color circularly polarized (TCCP) laser fields consisting of a strong 400 nm and a much weaker 800 nm pulses. Due to the presence of perturbative 800 nm laser pulse, sideband peaks emerge between the above-threshold ionization rings in the photoelectron momentum distributions. Our numerical results show that the sideband peaks exhibit one-lobe structure in the co-rotating TCCP laser fields, while it displays the three-lobe structure in the counter-rotating TCCP laser fields. Moreover, the photoelectron yield of sidebands in the co-rotating TCCP fields is much higher than those of the counter-rotating TCCP fields. These phenomena could be well explained from the perspective of the photon-absorption channels via the selection rules. Interestingly, an obvious phase shift between the sidebands of different orders from the co-rotating and counter-rotating TCCP fields is observed. This shift indicates the helicity-dependent time delay in the one-photon continuum-continuum transition process.

Topics & Concepts

PhysicsLaserSidebandIonizationAtomic physicsHelicityExcitationAbove threshold ionizationPhotoionizationOpticsQuantum mechanicsMicrowaveIonLaser-Matter Interactions and ApplicationsAdvanced Fiber Laser TechnologiesLaser-Plasma Interactions and Diagnostics
Helicity-dependent time delays in multiphoton ionization by two-color circularly polarized laser fields | Litcius