Charge Transfer in the Dissociative Single Ionization of an Ar-Kr Dimer

Junyang Ma; Hao Huang; Hongcheng Ni; Yan Yang; Zhenrong Sun

doi:10.1103/skl9-xzmm

Charge Transfer in the Dissociative Single Ionization of an Ar-Kr Dimer

Junyang Ma^*
, Hao Huang
, Hongcheng Ni
, Yan Yang
, Zhenrong Sun^*

^*Corresponding author for this work

Institute for Advanced Study in Precision Spectroscopy

East China Normal University
Shanxi University

Research output: Contribution to journal › Article › peer-review

Abstract

We present direct experimental evidence of laser-induced charge transfer in the dissociative single ionization of an Ar-Kr dimer: Ar-Kr+nℏω⟶ionizationAr-Kr++e−+mℏω⟶charge transferAr+-Kr+e−⟶dissociationAr++Kr+e−. Coincidence detection of Ar+ fragments and photoelectrons generated by a 400 nm femtosecond pulse shows that ionization initially occurs at the Kr site, followed by charge transfer from Ar to Kr+ prior to dissociation. Time-resolved kinetic energy release spectra, obtained with a delayed 800 nm probe, exhibit vibrational revivals that map nuclear wave packet motion on the X(1/2) and A2(1/2) states of Ar-Kr+. Relative-phase-controlled two-color fields enable directional control of Ar+ emission, with phase-dependent asymmetries reproduced by time-dependent Schrödinger equation simulations, revealing the governing role of wave packet interference in the charge transfer dynamics.

Original language	English
Article number	083201
Journal	Physical Review Letters
Volume	136
Issue number	8
DOIs	https://doi.org/10.1103/skl9-xzmm
State	Published - 27 Feb 2026

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title = "Charge Transfer in the Dissociative Single Ionization of an Ar-Kr Dimer",

abstract = "We present direct experimental evidence of laser-induced charge transfer in the dissociative single ionization of an Ar-Kr dimer: Ar-Kr+nℏω⟶ionizationAr-Kr++e−+mℏω⟶charge transferAr+-Kr+e−⟶dissociationAr++Kr+e−. Coincidence detection of Ar+ fragments and photoelectrons generated by a 400 nm femtosecond pulse shows that ionization initially occurs at the Kr site, followed by charge transfer from Ar to Kr+ prior to dissociation. Time-resolved kinetic energy release spectra, obtained with a delayed 800 nm probe, exhibit vibrational revivals that map nuclear wave packet motion on the X(1/2) and A2(1/2) states of Ar-Kr+. Relative-phase-controlled two-color fields enable directional control of Ar+ emission, with phase-dependent asymmetries reproduced by time-dependent Schr{\"o}dinger equation simulations, revealing the governing role of wave packet interference in the charge transfer dynamics.",

author = "Junyang Ma and Hao Huang and Hongcheng Ni and Yan Yang and Zhenrong Sun",

note = "Publisher Copyright: {\textcopyright} 2026 American Physical Society.",

year = "2026",

month = feb,

day = "27",

doi = "10.1103/skl9-xzmm",

language = "英语",

volume = "136",

journal = "Physical Review Letters",

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TY - JOUR

T1 - Charge Transfer in the Dissociative Single Ionization of an Ar-Kr Dimer

AU - Ma, Junyang

AU - Huang, Hao

AU - Ni, Hongcheng

AU - Yang, Yan

AU - Sun, Zhenrong

PY - 2026/2/27

Y1 - 2026/2/27

N2 - We present direct experimental evidence of laser-induced charge transfer in the dissociative single ionization of an Ar-Kr dimer: Ar-Kr+nℏω⟶ionizationAr-Kr++e−+mℏω⟶charge transferAr+-Kr+e−⟶dissociationAr++Kr+e−. Coincidence detection of Ar+ fragments and photoelectrons generated by a 400 nm femtosecond pulse shows that ionization initially occurs at the Kr site, followed by charge transfer from Ar to Kr+ prior to dissociation. Time-resolved kinetic energy release spectra, obtained with a delayed 800 nm probe, exhibit vibrational revivals that map nuclear wave packet motion on the X(1/2) and A2(1/2) states of Ar-Kr+. Relative-phase-controlled two-color fields enable directional control of Ar+ emission, with phase-dependent asymmetries reproduced by time-dependent Schrödinger equation simulations, revealing the governing role of wave packet interference in the charge transfer dynamics.

AB - We present direct experimental evidence of laser-induced charge transfer in the dissociative single ionization of an Ar-Kr dimer: Ar-Kr+nℏω⟶ionizationAr-Kr++e−+mℏω⟶charge transferAr+-Kr+e−⟶dissociationAr++Kr+e−. Coincidence detection of Ar+ fragments and photoelectrons generated by a 400 nm femtosecond pulse shows that ionization initially occurs at the Kr site, followed by charge transfer from Ar to Kr+ prior to dissociation. Time-resolved kinetic energy release spectra, obtained with a delayed 800 nm probe, exhibit vibrational revivals that map nuclear wave packet motion on the X(1/2) and A2(1/2) states of Ar-Kr+. Relative-phase-controlled two-color fields enable directional control of Ar+ emission, with phase-dependent asymmetries reproduced by time-dependent Schrödinger equation simulations, revealing the governing role of wave packet interference in the charge transfer dynamics.

UR - https://www.scopus.com/pages/publications/105030923728

U2 - 10.1103/skl9-xzmm

DO - 10.1103/skl9-xzmm

M3 - 文章

AN - SCOPUS:105030923728

SN - 0031-9007

VL - 136

JO - Physical Review Letters

JF - Physical Review Letters

IS - 8

M1 - 083201

ER -

Charge Transfer in the Dissociative Single Ionization of an Ar-Kr Dimer

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