Your search keyword '"David Wachs"' showing total 5 results

1. XUV-Initiated Dissociation Dynamics of Molecular Oxygen (O2)

Author

Kristina Meyer, Thomas Ding, Stefan Düsterer, Lennart Aufleger, Rolf Treusch, Veit Stooß, Paul Birk, Carina da Costa Castanheira, Helmut Zacharias, David Wachs, Alexander Magunia, S. Roling, Yonghao Mi, Gergana Dimitrova Borisova, Patrick Rupprecht, Marco Butz, Marc Rebholz, Uwe Thumm, Günter Brenner, Maia Magrakvelidze, Christian D. Ott, Maximilian Hartmann, and Thomas Pfeifer

Subjects

Chemistry, Ionic bonding, chemistry.chemical_element, Photon energy, Laser, Oxygen, Dissociation (chemistry), Article, law.invention, law, Atomic electron transition, Molecule, ddc:530, Physical and Theoretical Chemistry, Atomic physics, Spectroscopy

Abstract

The journal of physical chemistry / A 125, 10138���10143 (2021). doi:10.1021/acs.jpca.1c06033, We performed a time-resolved spectroscopy experixment on the dissociation of oxygen molecules after the interactionwith intense extreme-ultraviolet (XUV) light from the free-electronlaser in Hamburg at Deutsches Elektronen-Synchrotron. Using anXUV-pump/XUV-probe transient-absorption geometry with asplit-and-delay unit, we observe the onset of electronic transitionsin the O$^{2+}$ cation near 50 eV photon energy, marking the end ofthe progression from a molecule to two isolated atoms. We observetwo different time scales of 290 �� 53 and 180 �� 76 fs for theemergence of different ionic transitions, indicating differentdissociation pathways taken by the departing oxygen atoms.With regard to the emerging opportunities of tuning the centralfrequencies of pump and probe pulses and of increasing the probe���pulse bandwidth, future pump���probe transient-absorptionexperiments are expected to provide a detailed view of the coupled nuclear and electronic dynamics during molecular dissociation, Published by Soc., Washington, DC

Published

2021

2. Measuring the frequency chirp of extreme-ultraviolet free-electron laser pulses by transient absorption spectroscopy

Author

Lennart Aufleger, Rolf Treusch, Maximilian Hartmann, Thomas Pfeifer, Marco Butz, Veit Stooß, David Wachs, Paul Birk, Helmut Zacharias, Carina da Costa Castanheira, Thomas Ding, Zhi-Heng Loh, Marc Rebholz, Stefan Düsterer, Gergana Dimitrova Borisova, Yonghao Mi, Arvid Eislage, Alexander Magunia, Patrick Rupprecht, S. Roling, Andrew R. Attar, Christian D. Ott, Stefano M. Cavaletto, and Thomas Gaumnitz

Subjects

Research group Z. Harman – Division C. H. Keitel, Science, Optical spectroscopy, General Physics and Astronomy, Physics::Optics, 02 engineering and technology, 01 natural sciences, Article, General Biochemistry, Genetics and Molecular Biology, law.invention, Optics, law, Free-electron lasers, X-rays, 0103 physical sciences, Ultrafast laser spectroscopy, Chirp, 010306 general physics, Spectroscopy, Physics, Multidisciplinary, business.industry, Free-electron laser, Nonlinear optics, General Chemistry, 021001 nanoscience & nanotechnology, Laser, Extreme ultraviolet, Physics::Accelerator Physics, ddc:500, 0210 nano-technology, business, Ultrashort pulse

Abstract

Nature Communications 12(1), 643 (1-7) (2021). doi:10.1038/s41467-020-20846-1, High-intensity ultrashort pulses at extreme ultraviolet (XUV) and x-ray photon energies, delivered by state-of-the-art free-electron lasers (FELs), are revolutionizing the field of ultrafast spectroscopy. For crossing the next frontiers of research, precise, reliable and practical photonic tools for the spectro-temporal characterization of the pulses are becoming steadily more important. Here, we experimentally demonstrate a technique for the direct measurement of the frequency chirp of extreme-ultraviolet free-electron laser pulses based on fundamental nonlinear optics. It is implemented in XUV-only pump-probe transient-absorption geometry and provides in-situ information on the time-energy structure of FEL pulses. Using a rate-equation model for the time-dependent absorbance changes of anionized neon target, we show how the frequency chirp can be directly extracted and quantified from measured data. Since the method does not rely on an additional external field, we expect a widespread implementation at FELs benefiting multiple science fields by in-situ on-target measurement and optimization of FEL-pulse properties., Published by Nature Publishing Group UK, [London]

Published

2021

3. All-XUV Pump-Probe Transient Absorption Spectroscopy of the Structural Molecular Dynamics of Di-iodomethane

Author

Thomas Pfeifer, Stephen R. Leone, Gergana Dimitrova Borisova, Christian D. Ott, V. Despré, Thomas Ding, Jonas Vester, Alexander I. Kuleff, Thomas Gaumnitz, Alexander Magunia, Hans Jakob Wörner, Andrew R. Attar, Kristina Meyer, Stefan Düsterer, Georg H. Schmid, Marco Butz, Kirsten Schnorr, Maximilian Hartmann, Claus Dieter Schröter, Günter Brenner, Yonghao Mi, Veit Stooß, Helmut Zacharias, Paul Birk, Lennart Aufleger, Carina da Costa Castanheira, Patrick Rupprecht, Rolf Treusch, Zhi-Heng Loh, Marc Rebholz, Robert Moshammer, David Wachs, S. Roling, and School of Physical and Mathematical Sciences

Subjects

Physics, Quantum Physics, Absorption spectroscopy, Molecular Physics, QC1-999, General Physics and Astronomy, Resonance, Condensed Matter Physics, Dissociation (chemistry), Molecular geometry, Ab initio quantum chemistry methods, Excited state, Chemistry [Science], Atomic Physics, Ultrafast laser spectroscopy, ddc:530, Atomic physics, Spectroscopy, Astronomical and Space Sciences

Abstract

Physical review / X 11(3), 031001 (1-9) (2021). doi:10.1103/PhysRevX.11.031001, In this work, we use an extreme-ultraviolet (XUV) free-electron laser (FEL) to resonantly excite the I: 4$d_{5/2}–σ^∗$ transition of a gas-phase di-iodomethane (CH$_2$I$_2$) target. This site-specific excitation generates a 4$d$ core hole located at an iodine site, which leaves the molecule in a well-defined excited state. We subsequently measure the time-dependent absorption change of the molecule with the FEL probe spectrum centered on the same I: 4$_d$ resonance. Using ab initio calculations of absorption spectra of a transient isomerization pathway observed in earlier studies, our time-resolved measurements allow us to assign the timescales of the previously reported direct and indirect dissociation pathways. The presented method is thus sensitive to excited-state molecular geometries in a time-resolved manner, following a core-resonant site-specific trigger., Published by APS, College Park, Md.

Published

2021

4. Chirp Characterization of High-Frequency Free-Electron-Laser Pulses using Transient Absorption Spectroscopy

Author

Gergana Dimitrova Borisova, Maximilian Hartmann, Patrick Rupprecht, Stefan Düsterer, Thomas Pfeifer, Christian D. Ott, Thomas Ding, Veit Stooß, Yonghao Mi, Alexander Magunia, Helmut Zacharias, Andrew R. Attar, Zhi-Heng Loh, Marco Butz, Lennart Aufleger, Rolf Treusch, Marc Rebholz, David Wachs, Thomas Gaumnitz, Stefano M. Cavaletto, S. Roling, Paul Birk, and Carina da Costa Castanheira

Subjects

Materials science, Absorption spectroscopy, business.industry, Free-electron laser, Physics::Optics, Nonlinear optics, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Photon counting, Characterization (materials science), 010309 optics, Optics, 0103 physical sciences, Ultrafast laser spectroscopy, Chirp, Physics::Atomic Physics, 0210 nano-technology, business, Spectroscopy

Abstract

We present a technique for the direct measurement of the frequency chirp of high-frequency free-electron-laser pulses based on fundamental nonlinear optics. It is implemented in transient absorption geometry.

Published

2020

5. Nonlinear coherence effects in transient-absorption ion spectroscopy with stochastic extreme-ultraviolet free-electron laser pulses

Author

Maximilian Hartmann, Marco Butz, Alexander Magunia, Thomas Pfeifer, Zhi-Heng Loh, Patrick Rupprecht, Marc Rebholz, Andrew R. Attar, Paul Birk, David Wachs, Carina da Costa Castanheira, Stefano M. Cavaletto, Stefan Düsterer, Kristina Meyer, Veit Stooß, Helmut Zacharias, Thomas Gaumnitz, Yonghao Mi, S. Roling, Lennart Aufleger, Rolf Treusch, Christian D. Ott, Gergana Dimitrova Borisova, Thomas Ding, and School of Physical and Mathematical Sciences

Subjects

Absorption spectroscopy, Atomic Physics (physics.atom-ph), Research group Z. Harman – Division C. H. Keitel, FOS: Physical sciences, General Physics and Astronomy, chemistry.chemical_element, 01 natural sciences, Physics - Atomic Physics, law.invention, Ion, Neon, symbols.namesake, law, 0103 physical sciences, Ultrafast laser spectroscopy, Chemistry [Science], ddc:530, Strong Electromagnetic Field Effects, 010306 general physics, Spectroscopy, Ultrafast Phenomena, Physics, Quantum Physics, Resonance, Laser, chemistry, Stark effect, symbols, Atomic physics, Quantum Physics (quant-ph)

Abstract

Physical review letters 123(10), 103001 (2019). doi:10.1103/PhysRevLett.123.103001, We demonstrate time-resolved nonlinear extreme-ultraviolet absorption spectroscopy on multiply charged ions, here applied to the doubly charged neon ion, driven by a phase-locked sequence of two intense free-electron laser pulses. Absorption signatures of resonance lines due to $2p-3d$ bound–bound transitions between the spin-orbit multiplets $^3P_{0,1,2}$ and $^3D_{1,2,3}$ of the transiently produced doubly charged Ne$^{2+}$ ion are revealed, with time-dependent spectral changes over a time-delay range of (2.4±0.3) fs. Furthermore, we observe 10-meV-scale spectral shifts of these resonances owing to the ac Stark effect. We use a time-dependent quantum model to explain the observations by an enhanced coupling of the ionic quantum states with the partially coherent free-electron laser radiation when the phase-locked pump and probe pulses precisely overlap in time., Published by APS, College Park, Md.

Published

2019