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Your search keyword '"Alberto González-Castrillo"' showing total 6 results
Start Over Author "Alberto González-Castrillo" Journal journal of physics: conference series
6 results on '"Alberto González-Castrillo"'

1. Molecular interferometer using XUV attosecond pulses to unravel electron and nuclear dynamics

Author

Alicia Palacios, Fernando Martín, Alberto González-Castrillo, and UAM. Departamento de Química

Subjects
Physics, Ionization, History, Interferometers, Wave packet, Attosecond, Química, Electron, Molecules, Computer Science Applications, Education, Delay circuits, Interferometry, Extreme ultraviolet, Excited state, Distortion, Physics::Atomic and Molecular Clusters, Physics::Atomic Physics, Atomic physics
Abstract

Two identical XUV attosecond pulses interact with the hydrogen molecule creating an interferometer resulting from the direct and sequential two-photon absorption paths reaching the same final ionized states. The dependence of the ionization yields with the time delay between the pulses allows to reconstruct the pumped vibronic (electronic and vibrational) wave packet created in the singly excited states of the molecule. The use of XUV pulses avoids a laser-induced distortion of the molecular potential, ensuring the characterization of the intrinsic behaviour of the system.

Published
2015

2. Electron streaking in the autoionization region of H2

Author

Alberto González-Castrillo, Fernando Martín, Alicia Palacios, and UAM. Departamento de Química

Subjects
Optical pumping, History, Chemistry, Attosecond, Hydrogen molecule, Electron ejection, Química, Photoionization, Electron, Molecules, Molecular axis, Polarization (waves), Streaking, Computer Science Applications, Education, Autoionization, Physics::Atomic and Molecular Clusters, Electron energy levels, Physics::Atomic Physics, Atomic physics
Abstract

We use a UV-pump/IR-probe scheme, combining a single attosecond UV pulse and a 750 nm IR pulse, to explore laser-assisted photoionization of the hydrogen molecule in the autoionization region. The electron energy distributions exhibit unusual streaking patterns that are explored for different angles of the electron ejection with respect to the polarization vector and the molecular axis. Moreover, by controlling the time delay between the pulses, we observe that one can suppress the autoionization channel.

Published
2015

3. Wave packet dynamics in molecular excited electronic states

Author

Alicia Palacios, Henri Bachau, Alberto González-Castrillo, Fernando Martín, and UAM. Departamento de Química

Subjects
History, Chemistry, media_common.quotation_subject, Wave packet, Time evolution, Química, Electron, Molecular dynamics, Asymmetry, Computer Science Applications, Education, Pulse (physics), Excited state, Ionization, Electronic states, Wave-packet dynamics, Atomic physics, Excitation, media_common
Abstract

We theoretically explore the use of UV pump – UV probe schemes to resolve in time the dynamics of nuclear wave packets in excited electronic states of the hydrogen molecule. The pump pulse ignites the dynamics in singly excited states, that will be probed after a given time delay by a second identical pulse that will ionize the molecule. The field-free molecular dynamics is first explored by analyizing the autocorrelation function for the pumped wave packet and the excitation probabilities. We investigate both energy and angle differential ionization probabilities and demonstrate that the asymmetry induced in the electron angular distributions gives a direct map of the time evolution of the pumped wave packet.

Published
2014

4. Clocking ultrafast wave packet dynamics in H2 by using UV pump - UV probe schemes

Author

Alicia Palacios, F. Martín, and Alberto González-Castrillo

Subjects
History, Chemistry, Wave packet, media_common.quotation_subject, Dynamics (mechanics), Electron, Asymmetry, Computer Science Applications, Education, Ionization, Excited state, Physics::Atomic and Molecular Clusters, Molecule, Physics::Atomic Physics, Atomic physics, Ultrashort pulse, media_common
Abstract

We theoretically investigate the use of UV pump - UV probe schemes with two identical pulses to excite and ionize the hydrogen molecule. The nuclear wave packet (NWP) generated in excited states of neutral molecules is traced by analyzing the asymmetry of the electron angular distributions resulting from dissociative ionization. The mapped NWP can be later used to selectively launch the ionization process into different channels.

Published
2014

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