Klaus Bartschat scite author profile

Tunnelling is one of the key features of quantum mechanics. A related debate, ongoing since the inception of quantum theory, is about the value, meaning and interpretation of 'tunnelling time' 1-5 . Simply put, the question is whether a tunnelling quantum particle spends a finite and measurable time under a potential barrier. Until recently the debate was purely theoretical, with the process considered to be instantaneous for all practical purposes. This changed with the development of ultrafast lasers and attosecond metrology 6 , which gave physicists experimental access to the attosecond (1 as = 10 -18 s) domain. It is at this time scale

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LXCat: an Open‐Access, Web‐Based Platform for Data Needed for Modeling Low Temperature Plasmas

Pitchford

Alves

Bartschat

et al. 2016

Plasma Processes & Polymers

238

216

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LXCat is an open‐access platform (http://www.lxcat.net) for curating data needed for modeling the electron and ion components of technological plasmas. The data types presently supported on LXCat are scattering cross sections and swarm/transport parameters, ion‐neutral interaction potentials, and optical oscillator strengths. Twenty‐four databases contributed by different groups around the world can be accessed on LXCat. New contributors are welcome; the database contributors retain ownership and are responsible for the contents and maintenance of the individual databases. This article summarizes the present status of the project.

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Coherent control with a short-wavelength free-electron laser

et al. 2016

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Extreme ultraviolet and X-ray free-electron lasers (FELs) produce short-wavelength pulses with high intensity, ultrashort duration, well-defined polarization and transverse coherence, and have been utilized for many experiments previously possible only at long wavelengths: multiphoton ionization, pumping an atomic laser and four-wave mixing spectroscopy. However one important optical technique, coherent control, has not yet been demonstrated, because self-amplified spontaneous emission FELs have limited longitudinal coherence. Single-colour pulses from the FERMI seeded FEL are longitudinally coherent, and two-colour emission is predicted to be coherent. Here, we demonstrate the phase correlation of two colours, and manipulate it to control an experiment. Light of wavelengths 63.0 and 31.5nm ionized neon, and we controlled the asymmetry of the photoelectron angular distribution by adjusting the phase, with a temporal resolution of 3as. This opens the door to new short-wavelength coherent control experiments with ultrahigh time resolution and chemical sensitivity

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Electron - atom scattering at low and intermediate energies using a pseudo-state/R-matrix basis

Bartschat

Hudson

Scott

et al. 1996

J. Phys. B: At. Mol. Opt. Phys.

248

143

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The use of a pseudo-state expansion within the standard low-energy R-matrix framework to facilitate the study of electron scattering by complex atoms and ions at both low and intermediate energies is discussed. Electron scattering from atomic hydrogen is considered as an example, and results for elastic scattering phase shifts and excitation cross sections are found to be in excellent agreement with recent IERM results in these energy regions. The advantage of this procedure is that existing computer codes, which have been developed over many years, can be directly extended to study electron scattering from a general N-electron target atom or ion.

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Dynamics of two-photon double ionization of helium in short intense xuv laser pulses

2008

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Klaus Bartschat

Attosecond angular streaking and tunnelling time in atomic hydrogen

LXCat: an Open‐Access, Web‐Based Platform for Data Needed for Modeling Low Temperature Plasmas

Coherent control with a short-wavelength free-electron laser

Electron - atom scattering at low and intermediate energies using a pseudo-state/R-matrix basis

Dynamics of two-photon double ionization of helium in short intense xuv laser pulses

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