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Enabling high-precision 3D strong-field measurements - Ionization with low-frequency fields in the tunneling regime

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arxiv 1305.0148 v1 pith:IRLZ3JDF submitted 2013-05-01 physics.atom-ph

Enabling high-precision 3D strong-field measurements - Ionization with low-frequency fields in the tunneling regime

classification physics.atom-ph
keywords dynamicsionizationmomentumstrong-fielddespiteelectronenergiesfields
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Ionization of an atom or molecule presents surprising richness beyond our current understanding: strong-field ionization with low-frequency fields recently revealed unexpected kinetic energy structures (1, 2). A solid grasp on electron dynamics is however pre-requisite for attosecond-resolution recollision imaging (3), orbital tomography (4), for coherent sources of keV light (5), or to produce zeptosecond-duration x-rays (6). We present a methodology that enables scrutinizing strong-field dynamics at an unprecedented level. Our method provides high-precision measurements only 1 meV above the threshold despite 5 orders higher ponderomotive energies. Such feat was realized with a specifically developed ultrafast mid-IR light source in combination with a reaction microscope. We observe electron dynamics in the tunneling regime ({\gamma} = 0.3) and show first 3D momentum distributions demonstrating surprising new observations of near-zero momentum electrons and low momentum structures, below the eV, despite quiver energies of 95 eV.

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