Your search keyword '"Witting, Tobias"' showing total 3 results

1. Prediction of attosecond light pulses in the VUV range in a high-order-harmonic-generation regime.

Author

Henkel, Jost, Witting, Tobias, Fabris, Davide, Lein, Manfred, Knight, Peter L., Tisch, John W. G., and Marangos, Jonathan P.

Subjects

*ULTRASHORT laser pulses, *OPTICAL polarization, *ATOMIC transitions, *SECOND harmonic generation, *SCHRODINGER equation, *PREDICTION theory

Abstract

Attosecond light pulses within the vacuum ultraviolet (VUV) energy range are predicted by solving the time-dependent Schrödinger equation (TDSE) for a model neon atom in short laser pulses of different field polarization states. We compare high-order harmonic generation in linearly polarized laser pulses to the method of polarization gating and find attosecond pulses that approach the Fourier limit of 700 as given by an indium filter, spectrally centered at 15 eV. At such low energies, harmonic generation has low sensitivity to ellipticity, which enables the generation of elliptically polarized attosecond pulses. We also show that emission at the atomic transition energies is strongly damped by including intensity averaging. [ABSTRACT FROM AUTHOR]

Published

2013

2. Role of Intrapulse Coherence in Carrier-Envelope Phase Stabilization.

Author

Raabe, Nils, Feng, Tianli, Witting, Tobias, Demircan, Ayhan, Brée, Carsten, and Steinmeyer, Günter

Subjects

*PULSED lasers, *METROLOGY, *ULTRA-short pulsed lasers

Abstract

The concept of coherence is of fundamental importance for describing the physical characteristics of light and for evaluating the suitability for experimental application. In the case of pulsed laser sources, the pulse-to-pulse coherence is usually considered for a judgment of the compressibility of the pulse train. This type of coherence is often lost during propagation through a highly nonlinear medium, and pulses prove incompressible despite multioctave spectral coverage. Notwithstanding the apparent loss of interpulse coherence, however, supercontinua enable applications in precision frequency metrology that rely on coherence between different spectral components within a laser pulse. To judge the suitability of a light source for the latter application, we define an alternative criterion, which we term intrapulse coherence. This definition plays a limiting role in the carrier-envelope phase measurement and stabilization of ultrashort pulses. It is shown by numerical simulation and further corroborated by experimental data that filamentation-based supercontinuum generation may lead to a loss of intrapulse coherence despite near-perfect compressibility of the pulse train. This loss of coherence may severely limit active and passive carrier-envelope phase stabilization schemes and applications in optical high-field physics. [ABSTRACT FROM AUTHOR]

Published

2017

3. Experimental Control of Quantum-Mechanical Entanglement in an Attosecond Pump-Probe Experiment.

Author

Koll, Lisa-Marie, Maikowski, Laura, Drescher, Lorenz, Witting, Tobias, and Vrakking, Marc J. J.

Subjects

*ATTOSECOND pulses, *QUANTUM teleportation, *ULTRAVIOLET lasers, *QUANTUM mechanics, *QUANTUM computing, *LASER pulses

Abstract

Entanglement is one of the most intriguing aspects of quantum mechanics and lies at the heart of the ongoing second quantum revolution, where it is a resource that is used in quantum key distribution, quantum computing, and quantum teleportation. We report experiments demonstrating the crucial role that entanglement plays in pump-probe experiments involving ionization, which are a hallmark of the novel research field of attosecond science. We demonstrate that the degree of entanglement in a bipartite ion + photoelectron system, and, as a consequence, the degree of vibrational coherence in the ion, can be controlled by tailoring the spectral properties of the attosecond extreme ultraviolet laser pulses that are used to create them. [ABSTRACT FROM AUTHOR]

Published

2022