Muonic Molecules in Superintense Laser Fields

20 August 2004

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 93 (8), 083602
https://doi.org/10.1103/physrevlett.93.083602

Abstract

We study theoretically the ionization and dissociation of muonic molecular ions (e.g.,

d d μ

) in superintense laser fields. We predict that the bond breaks by tunneling of the lightest ion through a bond-softened barrier at intensity

I \geq 10^{21} W / c m^{2}

. Ionization of the muonic atomic fragment occurs at much higher intensity

I \geq 6 \times 10^{22} W / c m^{2}

. Since the field controls the ion trajectory after dissociation, it forces recollision of a

\sim 10^{5} - 10^{6} e V

ion with the muonic atom. Recollision can trigger a nuclear reaction with sub-laser-cycle precision. In general, molecules can serve as precursors for laser control of nuclear processes.

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