Loss of coherence in atomic ionization with attosecond pulses

Saad Mehmood; C Cariker; Tor Kjellsson; E Lindroth; Luca Argenti

Loss of coherence in atomic ionization with attosecond pulses

POSTER

Abstract

The ions that emerge from the ionization of an atomic target with short light pulses are only partly coherent, since the possible ionic states are entangled with different photoelectron wavepackets [1]. Here we use a newly developed ab initio program that solves the time-dependent Schroedinger equation for polyelectronic atoms, to study how the parameters of sequences of short ionizing pulses affect the residual ion coherence for helium and argon targets. The program originates from the merge between a time-dependent close-coupling code for two-active-electron atoms [2] and the Stock B-spline close-coupling structure program [3]. [1] S Pabst et al., Phys. Rev. Lett. 106, 053003 (2011). [2] L Argenti and E Lindroth, Phys. Rev. Lett. 105, 053002 (2010). [3] T Carette et al., Phys. Rev. A 87, 023420 (2013).

^*NSF Grant No. 1607588

Authors

Saad Mehmood
- Dept. of Physics, Univ. of Central Florida, FL, USA
C Cariker
- Univ of Central Florida
- Univ. Central Florida, USA
- Dept. of Physics, Univ. of Central Florida, FL, USA
- Dept. Physics, Univ. Central Florida, FL, USA
Tor Kjellsson
- Stockholm University, Stockholm, SE, EU
E Lindroth
- Stockholm University, Sweden
- Stockholm University, Stockholm, SE, EU
Luca Argenti
- University of Central Florida
- Dept. Physics and CREOL, Univ of Central Florida, USA
- Dept. of Physics and CREOL, Univ. of Central Florida, FL, USA
- Dept. Physics and CREOL, Univ. Central Florida, FL, USA
- Univ of Central Florida