Oliver Schepp scite author profile

We present a joint experimental and theoretical study of the VUV-induced dynamics of H 2 O and its deuterated isotopologues in the first excited state (Ã 1 B 1) utilizing a VUV-pump VUV-probe scheme combined with ab initio classical trajectory calculations. 16-fs VUV pulses centered at 161 nm created by fifth-order harmonic generation are employed for single-shot pump-probe measurements. Combined with a precise determination of the VUV pulses' temporal profile, they provide the necessary temporal resolution to elucidate sub-10-fs dissociation dynamics in the 1+1 photon ionization time window. Ionization with a single VUV photon complements established strong-field ionization schemes by disclosing the molecular dynamics under perturbative conditions. Kinetic isotope effects derived from the pump-probe experiment are found to be in agreement with our by ab initio classical trajectory calculations, taking into account photoionization cross sections for the ground and first excited state of the water cation.

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Time-Resolved Dissociation Dynamics of Iodomethane Resulting from Rydberg and Valence Excitation

Baumann

Rompotis

Schepp

et al. 2018

J. Phys. Chem. A

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Rydberg excitations in the vacuum ultraviolet spectral range may open up molecular photoreaction pathways not accessible from lower-lying valence states. Here, single-shot UV/VUV pump-probe spectroscopy was used to study the photodissociation dynamics of iodomethane after 268 nm excitation in the A-band and excitation of the 6p ( E) Rydberg state at 161 nm. By combining weak-field VUV single-photon ionization with sub-10 fs temporal resolution and the superior statistical accuracy of the single-shot technique, sub-30 fs wave packet dynamics upon excitation in the A-band by a UV pump pulse were disclosed. Population transfer from the Rydberg state to the 2 A valence state leading to 100 fs dissociation dynamics was observed by utilizing the same methodology in a VUV-pump/UV-probe scheme.

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Single-shot nonlinear spectroscopy in the vacuum-ultraviolet

Rompotis

Baumann

Schepp

et al. 2017

Optica

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Tracing few-femtosecond photodissociation dynamics on molecular oxygen with a single-color pump-probe scheme in the VUV

et al. 2016

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Molecular wave-packet dynamics in oxygen are studied in the time domain, using a single-color VUVpump-VUV-probe scheme. 17-fs VUV pulses, centered at 161 nm are generated via high-order harmonic generation driven by an intense 800-nm pulse leading to VUV pulse energies that reach 1.1 μJ per pulse. An all-reflective interferometric pump-probe scheme is used for studying the delay dependence of the molecular oxygen ion signal with simultaneous nonresonant photoionization of krypton as a precise timing-reference. Access to the excited dissociative state lifetime is provided by the resulting delay-dependent O 2 + signal, ultimately limited by the molecular ionization window. The ability to use a two-photon VUV probe provides the delay-dependent detection of O + as an additional observable, extending the dissociation observation window.

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VUV-induced dynamics of the electronically excited C2D4 molecule in a single-color pump-probe experiment

Schepp

Baumann

Wieland

et al. 2019

Chemical Physics Letters

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Oliver Schepp

Weak-field few-femtosecond VUV photodissociation dynamics of water isotopologues

Time-Resolved Dissociation Dynamics of Iodomethane Resulting from Rydberg and Valence Excitation

Single-shot nonlinear spectroscopy in the vacuum-ultraviolet

Tracing few-femtosecond photodissociation dynamics on molecular oxygen with a single-color pump-probe scheme in the VUV

VUV-induced dynamics of the electronically excited C2D4 molecule in a single-color pump-probe experiment

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