Günter Brenner scite author profile

Time-resolved photoemission with ultrafast pump and probe pulses is an emerging technique with wide application potential. Real-time recording of nonequilibrium electronic processes, transient states in chemical reactions, or the interplay of electronic and structural dynamics offers fascinating opportunities for future research. Combining valence-band and core-level spectroscopy with photoelectron diffraction for electronic, chemical, and structural analyses requires few 10 fs soft X-ray pulses with some 10 meV spectral resolution, which are currently available at high repetition rate free-electron lasers. We have constructed and optimized a versatile setup commissioned at FLASH/PG2 that combines free-electron laser capabilities together with a multidimensional recording scheme for photoemission studies. We use a full-field imaging momentum microscope with time-of-flight energy recording as the detector for mapping of 3D band structures in (kx, ky, E) parameter space with unprecedented efficiency. Our instrument can image full surface Brillouin zones with up to 7 Å−1 diameter in a binding-energy range of several eV, resolving about 2.5 × 105 data voxels simultaneously. Using the ultrafast excited state dynamics in the van der Waals semiconductor WSe2 measured at photon energies of 36.5 eV and 109.5 eV, we demonstrate an experimental energy resolution of 130 meV, a momentum resolution of 0.06 Å−1, and a system response function of 150 fs.

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Time-Resolved Measurement of Interatomic Coulombic Decay inNe2

Schnorr¹,

Senftleben²,

Курка³

et al. 2013

Phys. Rev. Lett.

124

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The lifetime of interatomic Coulombic decay (ICD) [L. S. Cederbaum et al., Phys. Rev. Lett. 79, 4778 (1997)] in Ne2 is determined via an extreme ultraviolet pump-probe experiment at the Free-Electron Laser in Hamburg. The pump pulse creates a 2s inner-shell vacancy in one of the two Ne atoms, whereupon the ionized dimer undergoes ICD resulting in a repulsive Ne+(2p(-1))-Ne+(2p(-1)) state, which is probed with a second pulse, removing a further electron. The yield of coincident Ne+-Ne2+ pairs is recorded as a function of the pump-probe delay, allowing us to deduce the ICD lifetime of the Ne2(+)(2s(-1)) state to be (150±50) fs, in agreement with quantum calculations.

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Soft X-Ray Laser Spectroscopy on Trapped Highly Charged Ions at FLASH

et al. 2007

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In a proof-of-principle experiment, we demonstrate high-resolution resonant laser excitation in the soft x-ray region at 48.6 eV of the 2 (2)S(1/2) to 2 (2)P(1/2) transition of Li-like Fe23+ ions trapped in an electron beam ion trap by using ultrabrilliant light from Free Electron Laser in Hamburg (FLASH). High precision spectroscopic studies of highly charged ions at this and upcoming x-ray lasers with an expected accuracy gain up to a factor of a thousand, become possible with our technique, thus potentially yielding fundamental insights, e.g., into basic aspects of QED.

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Relativistic Electron Correlation, Quantum Electrodynamics, and the Lifetime of the1s22s22p P3/2o
Lapierre
¹
,
López‐Urrutia
²
,
Braun
³

et al. 2005
Phys. Rev. Lett.
87
4
58
1
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The lifetime of the Ar13+ 1s(2)2s(2)2p2p0(3/2) metastable level was determined at the Heidelberg Electron Beam Ion Trap to be 9.573(4)(5). The accuracy level of one per thousand makes this measurement sensitive to quantum electrodynamic effects like the electron anomalous magnetic moment (EAMM) and to relativistic electron-electron correlation effects like the frequency-dependent Breit interaction. Theoretical predictions, adjusted for the EAMM, cluster about a lifetime that is approximately shorter than our experimental result.

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Lifetime determination of theFeXIV3s23pP
Brenner
¹
,
López‐Urrutia
²
,
Harman
³

et al. 2007
Phys. Rev. A
52
0
51
0
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CAMP@FLASH: an end-station for imaging, electron- and ion-spectroscopy, and pump–probe experiments at the FLASH free-electron laser

Erk¹,

Müller²,

Bomme³

et al. 2018

J Synchrotron Radiat

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Beamline BL1 at the FLASH free-electron laser facility at DESY was upgraded with new transport and focusing optics for the installation of the new permanent CAMP end-station, a multi-purpose instrument optimized for electron- and ion-spectroscopy, imaging and pump–probe experiments. An overview of the layout, beam transport, focusing capabilities, and experimental possibilities of this new end-station, as well as results from its commissioning and first experiments, are presented.

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Lifetime measurement of the Ar XIV1s22s22pP3∕2o2

et al. 2006

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Observation of an Excitonic Mott Transition Through Ultrafast Core- cum -Conduction Photoemission Spectroscopy

et al. 2020

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Time-resolved soft-x-ray photoemission spectroscopy is used to simultaneously measure the ultrafast dynamics of core-level spectral functions and excited states upon excitation of excitons in WSe 2. We present a many-body approximation for the Green's function, which excellently describes the transient core-hole spectral function. The relative dynamics of excited-state signal and core levels clearly show a delayed core-hole renormalization due to screening by excited quasifree carriers resulting from an excitonic Mott transition. These findings establish time-resolved core-level photoelectron spectroscopy as a sensitive probe of subtle electronic many-body interactions and ultrafast electronic phase transitions.

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Günter Brenner

Time- and momentum-resolved photoemission studies using time-of-flight momentum microscopy at a free-electron laser

Time-Resolved Measurement of Interatomic Coulombic Decay inNe2

Soft X-Ray Laser Spectroscopy on Trapped Highly Charged Ions at FLASH

Relativistic Electron Correlation, Quantum Electrodynamics, and the Lifetime of the1s22s22p P3/2o
Lapierre
¹
,
López‐Urrutia
²
,
Braun
³

et al. 2005
Phys. Rev. Lett.
87
4
58
1
View full text Add to dashboard Cite

Lifetime determination of theFeXIV3s23pP
Brenner
¹
,
López‐Urrutia
²
,
Harman
³

et al. 2007
Phys. Rev. A
52
0
51
0
View full text Add to dashboard Cite

CAMP@FLASH: an end-station for imaging, electron- and ion-spectroscopy, and pump–probe experiments at the FLASH free-electron laser

Lifetime measurement of the Ar XIV1s22s22pP3∕2o2

Observation of an Excitonic Mott Transition Through Ultrafast Core- cum -Conduction Photoemission Spectroscopy

Contact Info

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About

Günter Brenner

Time- and momentum-resolved photoemission studies using time-of-flight momentum microscopy at a free-electron laser

Time-Resolved Measurement of Interatomic Coulombic Decay inNe2

Soft X-Ray Laser Spectroscopy on Trapped Highly Charged Ions at FLASH

Relativistic Electron Correlation, Quantum Electrodynamics, and the Lifetime of the1s22s22p P3/2oLapierre1, López‐Urrutia2, Braun3 et al. 2005Phys. Rev. Lett.874581View full textAdd to dashboardCite

Lifetime determination of theFeXIV3s23pPBrenner1, López‐Urrutia2, Harman3 et al. 2007Phys. Rev. A520510View full textAdd to dashboardCite

CAMP@FLASH: an end-station for imaging, electron- and ion-spectroscopy, and pump–probe experiments at the FLASH free-electron laser

Lifetime measurement of the Ar XIV1s22s22pP3∕2o2

Observation of an Excitonic Mott Transition Through Ultrafast Core- cum -Conduction Photoemission Spectroscopy

Contact Info

Product

Resources

About

Relativistic Electron Correlation, Quantum Electrodynamics, and the Lifetime of the1s22s22p P3/2o
Lapierre
¹
,
López‐Urrutia
²
,
Braun
³

et al. 2005
Phys. Rev. Lett.
87
4
58
1
View full text Add to dashboard Cite

Lifetime determination of theFeXIV3s23pP
Brenner
¹
,
López‐Urrutia
²
,
Harman
³

et al. 2007
Phys. Rev. A
52
0
51
0
View full text Add to dashboard Cite