Your search keyword '"van Driel, Tim"' showing total 7 results

1. Tracking structural solvent reorganization and recombination dynamics following e− photoabstraction from aqueous I− with femtosecond x-ray spectroscopy and scattering.

Author

Vester, Peter, Kubicek, Katharina, Alonso-Mori, Roberto, Assefa, Tadesse, Biasin, Elisa, Christensen, Morten, Dohn, Asmus O., van Driel, Tim B., Galler, Andreas, Gawelda, Wojciech, Harlang, Tobias C. B., Henriksen, Niels E., Kjær, Kasper S., Kuhlman, Thomas S., Németh, Zoltán, Nurekeyev, Zhangatay, Pápai, Mátyás, Rittman, Jochen, Vankó, György, and Yavas, Hasan

Subjects

FREE electron lasers, X-ray absorption near edge structure, X-ray scattering, TIME-resolved spectroscopy, X-ray spectroscopy, COHERENCE (Optics), CONDUCTION electrons, MOLECULAR dynamics

Abstract

We present a sub-picosecond resolved investigation of the structural solvent reorganization and geminate recombination dynamics following 400 nm two-photon excitation and photodetachment of a valence p electron from the aqueous atomic solute, I−(aq). The measurements utilized time-resolved X-ray Absorption Near Edge Structure (TR-XANES) spectroscopy and X-ray Solution Scattering (TR-XSS) at the Linac Coherent Light Source x-ray free electron laser in a laser pump/x-ray probe experiment. The XANES measurements around the L1-edge of the generated nascent iodine atoms (I0) yield an average electron ejection distance from the iodine parent of 7.4 ± 1.5 Å with an excitation yield of about 1/3 of the 0.1M NaI aqueous solution. The kinetic traces of the XANES measurement are in agreement with a purely diffusion-driven geminate iodine–electron recombination model without the need for a long-lived (I0:e−) contact pair. Nonequilibrium classical molecular dynamics simulations indicate a delayed response of the caging H2O solvent shell and this is supported by the structural analysis of the XSS data: We identify a two-step process exhibiting a 0.1 ps delayed solvent shell reorganization time within the tight H-bond network and a 0.3 ps time constant for the mean iodine–oxygen distance changes. The results indicate that most of the reorganization can be explained classically by a transition from a hydrophilic cavity with a well-ordered first solvation shell (hydrogens pointing toward I−) to an expanded cavity around I0 with a more random orientation of the H2O molecules in a broadened first solvation shell. [ABSTRACT FROM AUTHOR]

Published

2022

2. The Liquid Jet Endstation for Hard X-ray Scattering and Spectroscopy at the Linac Coherent Light Source.

Author

Antolini, Cali, Sosa Alfaro, Victor, Reinhard, Marco, Chatterjee, Gourab, Ribson, Ryan, Sokaras, Dimosthenis, Gee, Leland, Sato, Takahiro, Kramer, Patrick L., Raj, Sumana Laxmi, Hayes, Brandon, Schleissner, Pamela, Garcia-Esparza, Angel T., Lim, Jinkyu, Babicz Jr., Jeffrey T., Follmer, Alec H., Nelson, Silke, Chollet, Matthieu, Alonso-Mori, Roberto, and van Driel, Tim B.

Subjects

COHERENCE (Optics), HARD X-rays, X-ray spectroscopy, LIGHT sources, X-ray emission spectroscopy, FEMTOSECOND pulses, FREE electron lasers, X-ray scattering

Abstract

The ability to study chemical dynamics on ultrafast timescales has greatly advanced with the introduction of X-ray free electron lasers (XFELs) providing short pulses of intense X-rays tailored to probe atomic structure and electronic configuration. Fully exploiting the full potential of XFELs requires specialized experimental endstations along with the development of techniques and methods to successfully carry out experiments. The liquid jet endstation (LJE) at the Linac Coherent Light Source (LCLS) has been developed to study photochemistry and biochemistry in solution systems using a combination of X-ray solution scattering (XSS), X-ray absorption spectroscopy (XAS), and X-ray emission spectroscopy (XES). The pump–probe setup utilizes an optical laser to excite the sample, which is subsequently probed by a hard X-ray pulse to resolve structural and electronic dynamics at their intrinsic femtosecond timescales. The LJE ensures reliable sample delivery to the X-ray interaction point via various liquid jets, enabling rapid replenishment of thin samples with millimolar concentrations and low sample volumes at the 120 Hz repetition rate of the LCLS beam. This paper provides a detailed description of the LJE design and of the techniques it enables, with an emphasis on the diagnostics required for real-time monitoring of the liquid jet and on the spatiotemporal overlap methods used to optimize the signal. Additionally, various scientific examples are discussed, highlighting the versatility of the LJE. [ABSTRACT FROM AUTHOR]

Published

2024

3. Publisher's Note: "Tracking structural solvent reorganization and recombination dynamics following e− photoabstraction from aqueous I− with femtosecond x-ray spectroscopy and scattering" [J. Chem. Phys. 157, 224201 (2022)]

Author

Vester, Peter, Kubicek, Katharina, Alonso-Mori, Roberto, Assefa, Tadesse, Biasin, Elisa, Christensen, Morten, Dohn, Asmus O., van Driel, Tim B., Galler, Andreas, Gawelda, Wojciech, Harlang, Tobias C. B., Henriksen, Niels E., Kjær, Kasper S., Kuhlman, Thomas S., Németh, Zoltán, Nurekeyev, Zhangatay, Pápai, Mátyás, Rittman, Jochen, Vankó, György, and Yavas, Hasan

Subjects

X-ray scattering, X-ray spectroscopy, SOLVENTS, PUBLISHING, FEMTOSECOND pulses, CHARGE exchange

Abstract

Publisher's Note: "Tracking structural solvent reorganization and recombination dynamics following e- photoabstraction from aqueous I- with femtosecond x-ray spectroscopy and scattering" [J. Chem. Phys. The footnote indicators are correct as they appear. This article was originally published online on 8 December 2022 with an error in the author footnote indicators for authors Jochen Rittman and Christian Bressler. [Extracted from the article]

Published

2023

4. X-ray Spectroscopic Studies of a Solid-Density Germanium Plasma Created by a Free Electron Laser.

Author

Pérez-Callejo, Gabriel, Vinko, Sam M., Ren, Shenyuan, Royle, Ryan, Humphries, Oliver, Preston, Thomas R., Hammel, Bruce A., Chung, Hyun-Kyung, Burian, Tomas, Vozda, Vojtěch, Lin, Ming-Fu, van Driel, Tim Brandt, and Wark, Justin S.

Subjects

FREE electron lasers, GERMANIUM, X-ray spectra, X-rays, EMISSION spectroscopy, ELECTRON density

Abstract

The generation of solid-density plasmas in a controlled manner using an X-ray free electron laser (XFEL) has opened up the possibility of diagnosing the atomic properties of hot, strongly coupled systems in novel ways. Previous work has concentrated on K-shell emission spectroscopy of low Z (<= 14) elements. Here, we extend these studies to the mid-Z(=32) element Germanium, where the XFEL creates copious L-shell holes, and the plasma conditions are interrogated by recording of the associated L-shell X-ray emission spectra. Given the desirability of generating as uniform a plasma as possible, we present here a study of the effects of the FEL photon energy on the temperatures and electron densities created, and their uniformity in the FEL beam propagation direction. We show that good uniformity can be achieved by tuning the photon energy of the XFEL such that it does not overlap significantly with L-shell to M-shell bound-bound transitions, and lies below the L-edges of the ions formed during the heating process. Reasonable agreement between experiment and simulations is found for the emitted X-ray spectra, demonstrating that for these higher Z elements, the selection of appropriate XFEL parameters is important for achieving uniformity in the plasma conditions. [ABSTRACT FROM AUTHOR]

Published

2020

5. A high‐throughput energy‐dispersive tender X‐ray spectrometer for shot‐to‐shot sulfur measurements.

Author

Abraham, Baxter, Nowak, Stanislaw, Weninger, Clemens, Armenta, Rebecca, Defever, Jim, Day, David, Carini, Gabriella, Nakahara, Kazutaka, Gallo, Alessandro, Nelson, Silke, Nordlund, Dennis, Kroll, Thomas, Hunter, Mark S., van Driel, Tim, Zhu, Diling, Weng, Tsu-Chien, Alonso-Mori, Roberto, and Sokaras, Dimosthenis

Subjects

FREE electron lasers, X-ray spectrometers, X-ray spectroscopy, X-ray lasers, SULFUR, HARD X-rays

Abstract

An X‐ray emission spectrometer that can detect the sulfur Kα emission lines with large throughput and a high energy resolution is presented. The instrument is based on a large d‐spacing perfect Bragg analyzer that diffracts the sulfur Kα emission at close to backscattering angles. This facilitates the application of efficient concepts routinely employed in hard X‐ray spectrometers towards the tender X‐ray regime. The instrument described in this work is based on an energy‐dispersive von Hamos geometry that is well suited for photon‐in photon‐out spectroscopy at X‐ray free‐electron laser and synchrotron sources. Comparison of its performance with previously used instrumentation is presented through measurements using sulfur‐containing species performed at the LCLS. It is shown that the overall signal intensity is increased by a factor of ∼15. Implementation of this approach in the design of a tender X‐ray spectroscopy endstation for LCLS‐II is also discussed. [ABSTRACT FROM AUTHOR]

Published

2019

6. Spin-state studies with XES and RIXS: From static to ultrafast.

Author

Vankó, György, Bordage, Amélie, Glatzel, Pieter, Gallo, Erik, Rovezzi, Mauro, Gawelda, Wojciech, Galler, Andreas, Bressler, Christian, Doumy, Gilles, March, Anne Marie, Kanter, Elliot P., Young, Linda, Southworth, Stephen H., Canton, Sophie E., Uhlig, Jens, Smolentsev, Grigory, Sundström, Villy, Haldrup, Kristoffer, van Driel, Tim Brandt, and Nielsen, Martin M.

Subjects

*X-ray emission spectroscopy, *RESONANCE, *INELASTIC scattering, *X-ray scattering, *PICOSECOND pulses, *PUMP probe spectroscopy, *ELECTRONIC excitation

Abstract

Abstract: We report on extending hard X-ray emission spectroscopy (XES) along with resonant inelastic X-ray scattering (RIXS) to study ultrafast phenomena in a pump-probe scheme at MHz repetition rates. The investigated systems include low-spin (LS) FeII complex compounds, where optical pulses induce a spin-state transition to their (sub)nanosecond-lived high-spin (HS) state. Time-resolved XES clearly reflects the spin-state variations with very high signal-to-noise ratio, in agreement with HS–LS difference spectra measured at thermal spin crossover, and reference HS–LS systems in static experiments, next to multiplet calculations. The 1s2p RIXS, measured at the Fe 1s pre-edge region, shows variations after laser excitation, which are consistent with the formation of the HS state. Our results demonstrate that X-ray spectroscopy experiments with overall rather weak signals, such as RIXS, can now be reliably exploited to study chemical and physical transformations on ultrafast time scales. [Copyright &y& Elsevier]

Published

2013

7. Nonuniform Flow Dynamics Probed by Nanosecond X-Ray Speckle Visibility Spectroscopy.

Author

Yanwen Sun, Carini, Gabriella, Chollet, Matthieu, Decker, Franz-Josef, Dunne, Mike, Fuoss, Paul, Hruszkewycz, Stephan O., Lane, Thomas J., Nakahara, Kazutaka, Nelson, Silke, Robert, Aymeric, Takahiro Sato, Sanghoon Song, Stephenson, G. Brian, Sutton, Mark, Van Driel, Tim B., Weninger, Clemens, and Diling Zhu

Subjects

*NON-uniform flows (Fluid dynamics), *FREE electron lasers, *X-ray spectroscopy, *COHERENCE (Optics), *X-rays, *ELECTRON sources, *SPECKLE interference

Abstract

We report observations of nanosecond nonuniform colloidal dynamics in a free flowing liquid jet using ultrafast x-ray speckle visibility spectroscopy. Utilizing a nanosecond double-bunch mode, the Linac Coherent Light Source free electron laser produced pairs of femtosecond coherent hard x-ray pulses. By exploring anisotropy in the visibility of summed speckle patterns which relates to the correlation functions, we evaluate not only the average particle flow rate in a colloidal nanoparticle jet, but also the nonuniform flow field within. The methodology presented here establishes the foundation for the study of nano- and atomic-scale inhomogeneous fluctuations in complex matter using x-ray free electron laser sources. [ABSTRACT FROM AUTHOR]

Published

2021