We use the nonrelativistic random-phase approximation with exchange to perform calculations of valence-shell photoionization of Ne, Ar, Kr, and Xe from their respective thresholds to photon energy of 200 eV. The energy derivative of the complex phase of
This thesis describes how photoemission stimulated by an attosecond pulse train (APT) can be used to...
We present calculations for attosecond atomic delays in the photoionization of noble-gas atoms based...
This research consists of two distinct but related elements in the realm of atomic photoionization. ...
We perform a systematic investigation of the photoelectron group delay in valence shell single ioniz...
Time delay of photoemission from valence ns, np3/2, and np1/2 subshells of noble-gas atoms is theore...
We analyze the time delay between emission of photoelectrons from the outer valence ns and np subshe...
We determine relative photoemission time delays between valence electrons in different noble gas ato...
Photoionization by an eXtreme UltraViolet (XUV) attosecond pulse train (APT) in the presence of an i...
Recent developments in laser technology, in particular the advances in high-harmonic generation, ena...
We present photoemission time-delay measurements between electrons originating from the valence shel...
We use the soft-photon approximation to extract the Wigner time delay from atomic two-color photoion...
We analyze a time delay of one- and two-electron photoemission from an atom after absorption of an a...
We solve the time-dependent Schrödinger equation for a noble gas atom (He and Ne) driven by an ioniz...
Recent progress in the generation of ultra-short laser pulses has enabled the measurement of photoio...
Attosecond delays between photoelectron wave packets emitted from different electronic shells are no...
This thesis describes how photoemission stimulated by an attosecond pulse train (APT) can be used to...
We present calculations for attosecond atomic delays in the photoionization of noble-gas atoms based...
This research consists of two distinct but related elements in the realm of atomic photoionization. ...
We perform a systematic investigation of the photoelectron group delay in valence shell single ioniz...
Time delay of photoemission from valence ns, np3/2, and np1/2 subshells of noble-gas atoms is theore...
We analyze the time delay between emission of photoelectrons from the outer valence ns and np subshe...
We determine relative photoemission time delays between valence electrons in different noble gas ato...
Photoionization by an eXtreme UltraViolet (XUV) attosecond pulse train (APT) in the presence of an i...
Recent developments in laser technology, in particular the advances in high-harmonic generation, ena...
We present photoemission time-delay measurements between electrons originating from the valence shel...
We use the soft-photon approximation to extract the Wigner time delay from atomic two-color photoion...
We analyze a time delay of one- and two-electron photoemission from an atom after absorption of an a...
We solve the time-dependent Schrödinger equation for a noble gas atom (He and Ne) driven by an ioniz...
Recent progress in the generation of ultra-short laser pulses has enabled the measurement of photoio...
Attosecond delays between photoelectron wave packets emitted from different electronic shells are no...
This thesis describes how photoemission stimulated by an attosecond pulse train (APT) can be used to...
We present calculations for attosecond atomic delays in the photoionization of noble-gas atoms based...
This research consists of two distinct but related elements in the realm of atomic photoionization. ...
DOI
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