Probing Proton Dynamics in Molecules on an Attosecond Time Scale

Baker, Sarah; Robinson, Joseph S.; Haworth, C. A.; Teng, H.; Smith, R. A.; Chirilă, C. C.; Lein, Manfred; Tisch, J. W. G.; Marangos, J. P.

doi:10.1126/science.1123904

articleScienceMar 3, 2006Closed access

Probing Proton Dynamics in Molecules on an Attosecond Time Scale

SBSarah Baker JSJoseph S. Robinson CAC. A. HaworthHTH. TengRAR. A. Smith

Max Planck Institute for Nuclear Physics · Imperial College London

PubMed

Indexed incrossrefpubmed

Abstract

We demonstrate a technique that uses high-order harmonic generation in molecules to probe nuclear dynamics and structural rearrangement on a subfemtosecond time scale. The chirped nature of the electron wavepacket produced by laser ionization in a strong field gives rise to a similar chirp in the photons emitted upon electron-ion recombination. Use of this chirp in the emitted light allows information about nuclear dynamics to be gained with 100-attosecond temporal resolution, from excitation by an 8-femtosecond pulse, in a single laser shot. Measurements on molecular hydrogen and deuterium agreed well with calculations of ultrafast nuclear dynamics in the H2+ molecule, confirming the validity of the method.…

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924

total citations

FWCI: 49.62
Percentile: 100%
References: 17

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Authors

9

SB
Sarah Baker
Max Planck Institute for Nuclear Physics, Imperial College London
JS
Joseph S. Robinson
Max Planck Institute for Nuclear Physics, Imperial College London
CA
C. A. Haworth
Max Planck Institute for Nuclear Physics, Imperial College London
HT
H. Teng
Max Planck Institute for Nuclear Physics, Imperial College London
RA
R. A. Smith
Max Planck Institute for Nuclear Physics, Imperial College London

Topics & keywords

Topics

Keywords

Attosecond
Ionization
Femtosecond
Atomic physics
High harmonic generation
Deuterium
Ultrashort pulse
Chirp

UN Sustainable Development Goals

Affordable and clean energy

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