Your search keyword '"Moeller SP"' showing total 14 results

1. Enhanced charge density wave coherence in a light-quenched, high-temperature superconductor

Author

Wandel, S, Boschini, F, da Silva Neto, EH, Shen, L, Na, MX, Zohar, S, Wang, Y, Welch, SB, Seaberg, MH, Koralek, JD, Dakovski, GL, Hettel, W, Lin, M-F, Moeller, SP, Schlotter, WF, Reid, AH, Minitti, MP, Boyle, T, He, F, Sutarto, R, Liang, R, Bonn, D, Hardy, W, Kaindl, RA, Hawthorn, DG, Lee, J-S, Kemper, AF, Damascelli, A, Giannetti, C, Turner, JJ, and Coslovich, G

Subjects

Physical Sciences, Condensed Matter Physics, General Science & Technology

Abstract

Superconductivity and charge density waves (CDWs) are competitive, yet coexisting, orders in cuprate superconductors. To understand their microscopic interdependence, a probe capable of discerning their interaction on its natural length and time scale is necessary. We use ultrafast resonant soft x-ray scattering to track the transient evolution of CDW correlations in YBa2Cu3O6+x after the quench of superconductivity by an infrared laser pulse. We observe a nonthermal response of the CDW order characterized by a near doubling of the correlation length within ≈1 picosecond of the superconducting quench. Our results are consistent with a model in which the interaction between superconductivity and CDWs manifests inhomogeneously through disruption of spatial coherence, with superconductivity playing the dominant role in stabilizing CDW topological defects, such as discommensurations.

Published

2022

2. Generation of ultrathin free-flowing liquid sheets

Author

Koralek, J, Kim, JB, Brůža, P, Curry, C, Chen, Z, Bechtel, HA, Cordones, AA, Sperling, P, Toleikis, S, Kern, JF, Moeller, SP, Glenzer, SH, and DePonte, DP

Subjects

FEL, Sample delivery, Infrared, Spectroscopy

Abstract

The physics and chemistry of liquid solutions play a central role in science, and our understanding of life on Earth. Unfortunately, key tools for interrogating aqueous systems, such as infrared and soft X-ray spectroscopy, cannot readily be applied because of strong absorption in water. Here we use gas dynamic forces to generate free-flowing, sub-micron, liquid sheets which are 2 orders of magnitude thinner than anything previously reported. Optical, infrared and X-ray spectroscopies are used to characterize the sheets, which are found to be tunable in thickness from over 1 micron down to less than 20 nanometers, which corresponds to fewer than 100 water molecules thick. At this thickness, aqueous sheets can readily transmit photons across the spectrum, leading to potentially transformative applications in infrared, X-ray, electron spectroscopies and beyond. The ultrathin sheets are stable for days in vacuum, and we demonstrate their use at free-electron laser and synchrotron light sources.

Published

2019

3. Author Correction: Generation and characterization of ultrathin free-flowing liquid sheets (Nature Communications DOI: 10.1038/s41467-018-03696-w)

Author

Koralek, JD, Kim, JB, Brůža, P, Curry, CB, Chen, Z, Bechtel, HA, Cordones, AA, Sperling, P, Toleikis, S, Kern, JF, Moeller, SP, Glenzer, SH, and Deponte, DP

Abstract

© 2018 The Author(s). The original version of this article omitted the following from the Acknowledgements:'P.B. was funded by the ELI Extreme Light Infrastructure Phase 2 (CZ.02.1.01/0.0/0.0/15008/0000162) from the European Regional Development Fund and the EUCALL project funded from the EU Horizon 2020 research and innovation programme under grant agreement No 654220,' which replaces the previous 'P.B. was funded by the ELI Extreme Light Infrastructure Phase 2 (CZ.02.1.01/0.0/0.0/15008/0000162) from the European Regional Development Fund.'This has been corrected in both the PDF and HTML versions of the article.

Published

2018

4. Attosecond impulsive stimulated X-ray Raman scattering in liquid water.

Author

Alexander O, Egun F, Rego L, Gutierrez AM, Garratt D, Cárdenas GA, Nogueira JJ, Lee JP, Zhao K, Wang RP, Ayuso D, Barnard JCT, Beauvarlet S, Bucksbaum PH, Cesar D, Coffee R, Duris J, Frasinski LJ, Huse N, Kowalczyk KM, Larsen KA, Matthews M, Mukamel S, O'Neal JT, Penfold T, Thierstein E, Tisch JWG, Turner JR, Vogwell J, Driver T, Berrah N, Lin MF, Dakovski GL, Moeller SP, Cryan JP, Marinelli A, Picón A, and Marangos JP

Abstract

We report the measurement of impulsive stimulated x-ray Raman scattering in neutral liquid water. An attosecond pulse drives the excitations of an electronic wavepacket in water molecules. The process comprises two steps: a transition to core-excited states near the oxygen atoms accompanied by transition to valence-excited states. Thus, the wavepacket is impulsively created at a specific atomic site within a few hundred attoseconds through a nonlinear interaction between the water and the x-ray pulse. We observe this nonlinear signature in an intensity-dependent Stokes Raman sideband at 526 eV. Our measurements are supported by our state-of-the-art calculations based on the polarization response of water dimers in bulk solvation and propagation of attosecond x-ray pulses at liquid density.

Published

2024

5. Transient resonant Auger-Meitner spectra of photoexcited thymine.

Author

Wolf TJA, Paul AC, Folkestad SD, Myhre RH, Cryan JP, Berrah N, Bucksbaum PH, Coriani S, Coslovich G, Feifel R, Martinez TJ, Moeller SP, Mucke M, Obaid R, Plekan O, Squibb RJ, Koch H, and Gühr M

Abstract

We present the first investigation of excited state dynamics by resonant Auger-Meitner spectroscopy (also known as resonant Auger spectroscopy) using the nucleobase thymine as an example. Thymine is photoexcited in the UV and probed with X-ray photon energies at and below the oxygen K-edge. After initial photoexcitation to a ππ* excited state, thymine is known to undergo internal conversion to an nπ* excited state with a strong resonance at the oxygen K-edge, red-shifted from the ground state π* resonances of thymine (see our previous study Wolf, et al., Nat. Commun., 2017, 8, 29). We resolve and compare the Auger-Meitner electron spectra associated both with the excited state and ground state resonances, and distinguish participator and spectator decay contributions. Furthermore, we observe simultaneously with the decay of the nπ* state signatures the appearance of additional resonant Auger-Meitner contributions at photon energies between the nπ* state and the ground state resonances. We assign these contributions to population transfer from the nπ* state to a ππ* triplet state via intersystem crossing on the picosecond timescale based on simulations of the X-ray absorption spectra in the vibrationally hot triplet state. Moreover, we identify signatures from the initially excited ππ* singlet state which we have not observed in our previous study.

Published

2021

6. Author Correction: Generation and characterization of ultrathin free-flowing liquid sheets.

Author

Koralek JD, Kim JB, Brůža P, Curry CB, Chen Z, Bechtel HA, Cordones AA, Sperling P, Toleikis S, Kern JF, Moeller SP, Glenzer SH, and DePonte DP

Abstract

The original version of this Article contained an error in Eq. (1). This has been corrected in both the PDF and HTML versions of the Article.

Published

2019

7. Author Correction: Generation and characterization of ultrathin free-flowing liquid sheets.

Author

Koralek JD, Kim JB, Brůža P, Curry CB, Chen Z, Bechtel HA, Cordones AA, Sperling P, Toleikis S, Kern JF, Moeller SP, Glenzer SH, and DePonte DP

Abstract

The original version of this article omitted the following from the Acknowledgements:'P.B. was funded by the ELI Extreme Light Infrastructure Phase 2 (CZ.02.1.01/0.0/0.0/15008/0000162) from the European Regional Development Fund and the EUCALL project funded from the EU Horizon 2020 research and innovation programme under grant agreement No 654220,' which replaces the previous 'P.B. was funded by the ELI Extreme Light Infrastructure Phase 2 (CZ.02.1.01/0.0/0.0/15008/0000162) from the European Regional Development Fund.'This has been corrected in both the PDF and HTML versions of the article.

Published

2018

8. Disentangling Transient Charge Density and Metal-Ligand Covalency in Photoexcited Ferricyanide with Femtosecond Resonant Inelastic Soft X-ray Scattering.

Author

Jay RM, Norell J, Eckert S, Hantschmann M, Beye M, Kennedy B, Quevedo W, Schlotter WF, Dakovski GL, Minitti MP, Hoffmann MC, Mitra A, Moeller SP, Nordlund D, Zhang W, Liang HW, Kunnus K, Kubiček K, Techert SA, Lundberg M, Wernet P, Gaffney K, Odelius M, and Föhlisch A

Abstract

Soft X-ray spectroscopies are ideal probes of the local valence electronic structure of photocatalytically active metal sites. Here, we apply the selectivity of time-resolved resonant inelastic X-ray scattering at the iron L-edge to the transient charge distribution of an optically excited charge-transfer state in aqueous ferricyanide. Through comparison to steady-state spectra and quantum chemical calculations, the coupled effects of valence-shell closing and ligand-hole creation are experimentally and theoretically disentangled and described in terms of orbital occupancy, metal-ligand covalency, and ligand field splitting, thereby extending established steady-state concepts to the excited-state domain. π-Back-donation is found to be mainly determined by the metal site occupation, whereas the ligand hole instead influences σ-donation. Our results demonstrate how ultrafast resonant inelastic X-ray scattering can help characterize local charge distributions around catalytic metal centers in short-lived charge-transfer excited states, as a step toward future rationalization and tailoring of photocatalytic capabilities of transition-metal complexes.

Published

2018

9. Generation and characterization of ultrathin free-flowing liquid sheets.

Author

Koralek JD, Kim JB, Brůža P, Curry CB, Chen Z, Bechtel HA, Cordones AA, Sperling P, Toleikis S, Kern JF, Moeller SP, Glenzer SH, and DePonte DP

Abstract

The physics and chemistry of liquid solutions play a central role in science, and our understanding of life on Earth. Unfortunately, key tools for interrogating aqueous systems, such as infrared and soft X-ray spectroscopy, cannot readily be applied because of strong absorption in water. Here we use gas-dynamic forces to generate free-flowing, sub-micron, liquid sheets which are two orders of magnitude thinner than anything previously reported. Optical, infrared, and X-ray spectroscopies are used to characterize the sheets, which are found to be tunable in thickness from over 1 μm  down to less than 20 nm, which corresponds to fewer than 100 water molecules thick. At this thickness, aqueous sheets can readily transmit photons across the spectrum, leading to potentially transformative applications in infrared, X-ray, electron spectroscopies and beyond. The ultrathin sheets are stable for days in vacuum, and we demonstrate their use at free-electron laser and synchrotron light sources.

Published

2018

10. Probing ultrafast ππ*/nπ* internal conversion in organic chromophores via K-edge resonant absorption.

Author

Wolf TJA, Myhre RH, Cryan JP, Coriani S, Squibb RJ, Battistoni A, Berrah N, Bostedt C, Bucksbaum P, Coslovich G, Feifel R, Gaffney KJ, Grilj J, Martinez TJ, Miyabe S, Moeller SP, Mucke M, Natan A, Obaid R, Osipov T, Plekan O, Wang S, Koch H, and Gühr M

Abstract

Many photoinduced processes including photosynthesis and human vision happen in organic molecules and involve coupled femtosecond dynamics of nuclei and electrons. Organic molecules with heteroatoms often possess an important excited-state relaxation channel from an optically allowed ππ* to a dark nπ* state. The ππ*/nπ* internal conversion is difficult to investigate, as most spectroscopic methods are not exclusively sensitive to changes in the excited-state electronic structure. Here, we report achieving the required sensitivity by exploiting the element and site specificity of near-edge soft X-ray absorption spectroscopy. As a hole forms in the n orbital during ππ*/nπ* internal conversion, the absorption spectrum at the heteroatom K-edge exhibits an additional resonance. We demonstrate the concept using the nucleobase thymine at the oxygen K-edge, and unambiguously show that ππ*/nπ* internal conversion takes place within (60 ± 30) fs. High-level-coupled cluster calculations confirm the method's impressive electronic structure sensitivity for excited-state investigations.Many photo-induced processes such as photosynthesis occur in organic molecules, but their femtosecond excited-state dynamics are difficult to track. Here, the authors exploit the element and site selectivity of soft X-ray absorption to sensitively follow the ultrafast ππ*/nπ* electronic relaxation of hetero-organic molecules.

Published

2017

11. Ultrafast Independent N-H and N-C Bond Deformation Investigated with Resonant Inelastic X-Ray Scattering.

Author

Eckert S, Norell J, Miedema PS, Beye M, Fondell M, Quevedo W, Kennedy B, Hantschmann M, Pietzsch A, Van Kuiken BE, Ross M, Minitti MP, Moeller SP, Schlotter WF, Khalil M, Odelius M, and Föhlisch A

Abstract

The femtosecond excited-state dynamics following resonant photoexcitation enable the selective deformation of N-H and N-C chemical bonds in 2-thiopyridone in aqueous solution with optical or X-ray pulses. In combination with multiconfigurational quantum-chemical calculations, the orbital-specific electronic structure and its ultrafast dynamics accessed with resonant inelastic X-ray scattering at the N 1s level using synchrotron radiation and the soft X-ray free-electron laser LCLS provide direct evidence for this controlled photoinduced molecular deformation and its ultrashort timescale., (© 2017 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.)

Published

2017

12. Chemical Bond Activation Observed with an X-ray Laser.

Author

Beye M, Öberg H, Xin H, Dakovski GL, Dell'Angela M, Föhlisch A, Gladh J, Hantschmann M, Hieke F, Kaya S, Kühn D, LaRue J, Mercurio G, Minitti MP, Mitra A, Moeller SP, Ng ML, Nilsson A, Nordlund D, Nørskov J, Öström H, Ogasawara H, Persson M, Schlotter WF, Sellberg JA, Wolf M, Abild-Pedersen F, Pettersson LG, and Wurth W

Abstract

The concept of bonding and antibonding orbitals is fundamental in chemistry. The population of those orbitals and the energetic difference between the two reflect the strength of the bonding interaction. Weakening the bond is expected to reduce this energetic splitting, but the transient character of bond-activation has so far prohibited direct experimental access. Here we apply time-resolved soft X-ray spectroscopy at a free-electron laser to directly observe the decreased bonding-antibonding splitting following bond-activation using an ultrashort optical laser pulse.

Published

2016

13. Surface chemistry. Probing the transition state region in catalytic CO oxidation on Ru.

Author

Öström H, Öberg H, Xin H, LaRue J, Beye M, Dell'Angela M, Gladh J, Ng ML, Sellberg JA, Kaya S, Mercurio G, Nordlund D, Hantschmann M, Hieke F, Kühn D, Schlotter WF, Dakovski GL, Turner JJ, Minitti MP, Mitra A, Moeller SP, Föhlisch A, Wolf M, Wurth W, Persson M, Nørskov JK, Abild-Pedersen F, Ogasawara H, Pettersson LG, and Nilsson A

Abstract

Femtosecond x-ray laser pulses are used to probe the carbon monoxide (CO) oxidation reaction on ruthenium (Ru) initiated by an optical laser pulse. On a time scale of a few hundred femtoseconds, the optical laser pulse excites motions of CO and oxygen (O) on the surface, allowing the reactants to collide, and, with a transient close to a picosecond (ps), new electronic states appear in the O K-edge x-ray absorption spectrum. Density functional theory calculations indicate that these result from changes in the adsorption site and bond formation between CO and O with a distribution of OC-O bond lengths close to the transition state (TS). After 1 ps, 10% of the CO populate the TS region, which is consistent with predictions based on a quantum oscillator model., (Copyright © 2015, American Association for the Advancement of Science.)

Published

2015

14. Reabsorption of soft x-ray emission at high x-ray free-electron laser fluences.

Author

Schreck S, Beye M, Sellberg JA, McQueen T, Laksmono H, Kennedy B, Eckert S, Schlesinger D, Nordlund D, Ogasawara H, Sierra RG, Segtnan VH, Kubicek K, Schlotter WF, Dakovski GL, Moeller SP, Bergmann U, Techert S, Pettersson LG, Wernet P, Bogan MJ, Harada Y, Nilsson A, and Föhlisch A

Subjects

Absorption, Physicochemical, Lasers, X-Rays, Models, Theoretical, Spectrometry, X-Ray Emission methods

Abstract

We report on oxygen K-edge soft x-ray emission spectroscopy from a liquid water jet at the Linac Coherent Light Source. We observe significant changes in the spectral content when tuning over a wide range of incident x-ray fluences. In addition the total emission yield decreases at high fluences. These modifications result from reabsorption of x-ray emission by valence-excited molecules generated by the Auger cascade. Our observations have major implications for future x-ray emission studies at intense x-ray sources. We highlight the importance of the x-ray pulse length with respect to the core-hole lifetime.

Published

2014