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arxiv: 1306.2209 · v2 · pith:7GNL4HXAnew · submitted 2013-06-10 · ⚛️ physics.optics · physics.atom-ph

Attosecond Magnetic Field Pulse Generation by Intense Few Cycle Circularly Polarized UV Pulses

classification ⚛️ physics.optics physics.atom-ph
keywords magneticattosecondcyclepulsescircularlyfieldintensemolecular
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Intense attosecond magnetic field pulses are predicted to be produced by intense few cycle circularly polarized UV pulses. Numerical solutions of the time dependent Schr\"{o}dinger equation for H$_2^+$ are used to study the dynamical process. Spiralling attosecond circular electron wave packets are created with nanometer molecular dimensions, thus generating magnetic fields of several tens of Teslas ($10^5$ Gauss). Simulations show that the induced magnetic field is critically dependent on the pulse wavelength $\lambda$ and pulse duration $n\tau$ ($n$ number of cycle) as predicted by a classical model. For ultrashort few cycle circularly polarized attosecond pulses, molecular orientation influences the generation of the induced magnetic fields as a result of preferential ionization perpendicular to the molecular axis.

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