Time-resolved HAXPES at SACLA: probe and pump pulse-induced space-charge effects

Oloff, L.-P.; Oura, M.; Roßnagel, Kai; Chainani, A.; Matsunami, Masaharu; Eguchi, Ritsuko; Kawamata, Takayuki; Nakatani, Y.; Yamaguchi, Takashi; Miyawaki, Jun; Taguchi, M.; Yamagami, Kohei; Togashi, Tadashi; Katayama, Tetsuo; Ogawa, Kazuhiko; Yabashi, Makina; Ishikawa, Tetsuya

doi:10.1088/1367-2630/16/12/123045

Cited by 63 publications

(90 citation statements)

References 52 publications

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“…This behavior is similar to results from FEL measurements reported by Oloff et al 62 Here, the authors argue that the NIR pump-induced electrons are created after the excitation of the electrons from the valence band by the FEL probe-pulses. Since most of the mainly "slow" NIR pump-induced electrons stay behind the faster valence band electrons, the latter always experience an accelerating repulsion.…”

Section: B Pump-induced Space-chargesupporting

confidence: 89%

Spin-resolved photoelectron spectroscopy using femtosecond extreme ultraviolet light pulses from high-order harmonic generation

Adam

Weier

Pluciński

et al. 2016

Review of Scientific Instruments

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The fundamental mechanism responsible for optically induced magnetization dynamics in ferromagnetic thin films has been under intense debate since almost two decades. Currently, numerous competing theoretical models are in strong need for a decisive experimental confirmation such as monitoring the triggered changes in the spin-dependent band structure on ultrashort time scales. Our approach explores the possibility of observing femtosecond band structure dynamics by giving access to extended parts of the Brillouin zone in a simultaneously time-, energy-and spin-resolved photoemission experiment. For this purpose, our setup uses a state-of-the-art, highly efficient spin detector and ultrashort, extreme ultraviolet light pulses created by laser-based high-order harmonic generation. In this paper, we present the setup and first spin-resolved spectra obtained with our experiment within an acquisition time short enough to allow pump-probe studies. Further, we characterize the influence of the excitation with femtosecond extreme ultraviolet pulses by comparing the results with data acquired using a continuous wave light source with similar photon energy. In addition, changes in the spectra induced by vacuum space-charge effects due to both the extreme ultraviolet probe-and near-infrared pump-pulses are studied by analyzing the resulting spectral distortions. The combination of energy resolution and electron count rate achieved in our setup confirms its suitability for spin-resolved studies of the band structure on ultrashort time scales. Published by AIP Publishing. [http://dx

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Section: B Pump-induced Space-chargesupporting

confidence: 89%

Spin-resolved photoelectron spectroscopy using femtosecond extreme ultraviolet light pulses from high-order harmonic generation

Adam

Weier

Pluciński

et al. 2016

Review of Scientific Instruments

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“…As we can see in Fig.3(b), the general trend of the temporal evolution of the space-charge effect is well reproduced by the model calculation. Details of the simulation will be described elsewhere [14]. From the experimental and simulation results of the pump-laser induced spacecharge dynamics, we have found that the temporal evolution gives us the precise definition of time zero for the pump-probe measurement as is discussed in the recent paper [15].…”

Section: Electron Dynamics Probed By Time-resolved Hard X-ray Photoelmentioning

confidence: 94%

“…These low-KE electrons are mostly emitted by the multiphoton absorption due to the non-linear processes. This energy distribution curve was incorporated into the simulation using an extended 2D mean-field model [14]. In the simulation, we used the following parameters : Ekin(probe) = 3035.9 eV, Ekin(pump) = measured spectra shown in Fig.…”

Section: Electron Dynamics Probed By Time-resolved Hard X-ray Photoelmentioning

confidence: 99%

Electron Dynamics Probed by Time-Resolved Hard X-ray Photoelectron Spectroscopy

Oura

Oloff

Chainani

et al. 2014

Trans. Mat. Res. Soc. Japan

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We have realized element-specific pump-probe time-resolved hard X-ray photoelectron spectroscopy (TR-HAXPES) for the study of ultrafast electron dynamics in condensed matter. TR-HAXPES has been applied for the first time to determine the temporal evolution of space-charge effects on Ti 1s core-level photoelectron spectra of SrTiO 3 at the SACLA X-ray free electron laser facility. We found that the temporal evolution of Ti 1s kinetic energy shifts can be well explained by a mean-field model for the electron propagation in the vacuum. We also report preliminary results of a real-time laserassisted valence-transition in YbInCu 4 , observed by measuring Yb 3d 5/2 core-level HAXPES spectra at BL19LXU of SPring-8, under ON/OFF conditions of an optical pump-laser. We observed drastic changes in intensities of the Yb 2+ and Yb 3+ spectral components induced by pump-laser irradiation.

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“…Considering the nowadays achievable energy resolution at synchrotron facilities using stateof-the-art electron spectrometers (ΔE≈1 meV), it is clear that SC-effects can become the bottleneck for photoemission experiments. Dramatic SC-effects with energy shifts and broadenings of several eV can occur at FELs with very high photon intensities and reported electron numbers of many thousands per pulse ( [10][11][12]) or in high-intensity HHG sources [13]. Several analytic [14] and numerical models, e.g.…”

Section: Introductionmentioning

confidence: 99%

“…With Monte-Carlo simulations we find that the detailed dynamics of the Au 4f XPS spectra can be explained by describing the SC-effects with an analytic meanfield model of the pump electron cloud. While this model is well known and has been successfully used to describe the space-charge induced energy shift in several pump-probe XPS studies [12,21], our high resolution Au 4f spectra enable to test its applicability on the detailed line shape, in particular line broadening and asymmetry. We find that all observations can be understood within the mean-field model without the need to account for local electron-electron collision processes -also called stochastic scattering-.…”

Section: Introductionmentioning

confidence: 99%

The influence of x-ray pulse length on space-charge effects in optical pump/x-ray probe photoemission

et al. 2019

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Pump-probe photoelectron spectroscopy (PES) is a versatile tool to investigate the dynamics of transient states of excited matter. Vacuum space-charge effects can mask these dynamics and complicate the interpretation of electron spectra. Here we report on space-charge effects in Au 4f photoemission from a polycrystalline gold surface, excited with moderately intense 90 ps (FWHM) soft x-ray probe pulses, under the influence of the Coulomb forces exerted by a pump electron cloud, which was produced by intense 40 fs laser pulses. The experimentally observed kinetic energy shift and spectral broadening of the Au 4f lines, measured with highly-efficient time-of-flight spectroscopy, are in good agreement with simulations utilizing a mean-field model of the electrostatic pump electron potential. This confirms that the line broadening is predominantly caused by variations in the take-off time of the probe electrons without appreciable influence of local scattering events. Our findings might be of general interest for pump-probe PES with picosecond-pulse-length sources.

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Time-resolved HAXPES at SACLA: probe and pump pulse-induced space-charge effects

Cited by 63 publications

References 52 publications

Spin-resolved photoelectron spectroscopy using femtosecond extreme ultraviolet light pulses from high-order harmonic generation

Spin-resolved photoelectron spectroscopy using femtosecond extreme ultraviolet light pulses from high-order harmonic generation

Electron Dynamics Probed by Time-Resolved Hard X-ray Photoelectron Spectroscopy

The influence of x-ray pulse length on space-charge effects in optical pump/x-ray probe photoemission

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