Your search keyword '"Helml, Wolfram"' showing total 2 results

1. Site-specific interrogation of an ionic chiral fragment during photolysis using an X-ray free-electron laser.

Author

Ilchen, Markus, Schmidt, Philipp, Novikovskiy, Nikolay M., Hartmann, Gregor, Rupprecht, Patrick, Coffee, Ryan N., Ehresmann, Arno, Galler, Andreas, Hartmann, Nick, Helml, Wolfram, Huang, Zhirong, Inhester, Ludger, Lutman, Alberto A., MacArthur, James P., Maxwell, Timothy, Meyer, Michael, Music, Valerija, Nuhn, Heinz-Dieter, Osipov, Timur, and Ray, Dipanwita

Subjects

CHIRALITY element, PHOTOLYSIS (Chemistry), X-rays, WAVELENGTHS, PHOTONS

Abstract

Short-wavelength free-electron lasers with their ultrashort pulses at high intensities have originated new approaches for tracking molecular dynamics from the vista of specific sites. X-ray pump X-ray probe schemes even allow to address individual atomic constituents with a 'trigger'-event that preludes the subsequent molecular dynamics while being able to selectively probe the evolving structure with a time-delayed second X-ray pulse. Here, we use a linearly polarized X-ray photon to trigger the photolysis of a prototypical chiral molecule, namely trifluoromethyloxirane (C3H3F3O), at the fluorine K-edge at around 700 eV. The created fluorine-containing fragments are then probed by a second, circularly polarized X-ray pulse of higher photon energy in order to investigate the chemically shifted inner-shell electrons of the ionic mother-fragment for their stereochemical sensitivity. We experimentally demonstrate and theoretically support how two-color X-ray pump X-ray probe experiments with polarization control enable XFELs as tools for chiral recognition. Ultrashort circularly polarised light pulses from free-electron lasers offer a route for exploring chiral molecules and their dynamics, but remain challenging to harness. Here, X-ray pump-probe experiments enable a site-specific photoelectron circular dichroism measurement on a dissociating chiral molecule. [ABSTRACT FROM AUTHOR]

Published

2021

2. A self-referenced in-situ arrival time monitor for X-ray free-electron lasers.

Author

Diez, Michael, Galler, Andreas, Schulz, Sebastian, Boemer, Christina, Coffee, Ryan N., Hartmann, Nick, Heider, Rupert, Wagner, Martin S., Helml, Wolfram, Katayama, Tetsuo, Sato, Tokushi, Sato, Takahiro, Yabashi, Makina, and Bressler, Christian

Subjects

FREE electron lasers, LASER pulses, OPTICAL interference, WAVELENGTHS, PICOSECOND pulses

Abstract

We present a novel, highly versatile, and self-referenced arrival time monitor for measuring the femtosecond time delay between a hard X-ray pulse from a free-electron laser and an optical laser pulse, measured directly on the same sample used for pump-probe experiments. Two chirped and picosecond long optical supercontinuum pulses traverse the sample with a mutually fixed time delay of 970 fs, while a femtosecond X-ray pulse arrives at an instant in between both pulses. Behind the sample the supercontinuum pulses are temporally overlapped to yield near-perfect destructive interference in the absence of the X-ray pulse. Stimulation of the sample with an X-ray pulse delivers non-zero contributions at certain optical wavelengths, which serve as a measure of the relative arrival time of the X-ray pulse with an accuracy of better than 25 fs. We find an excellent agreement of our monitor with the existing timing diagnostics at the SACLA XFEL with a Pearson correlation value of 0.98. We demonstrate a high sensitivity to measure X-ray pulses with pulse energies as low as 30 μ J. Using a free-flowing liquid jet as interaction sample ensures the full replacement of the sample volume for each X-ray/optical event, thus enabling its utility even at MHz repetition rate XFEL sources. [ABSTRACT FROM AUTHOR]

Published

2021