Cristel Chandre scite author profile

It is generally believed that the recollision mechanism of atomic nonsequential double ionization is suppressed in circularly polarized laser fields because the returning electron is unlikely to encounter the core. On the contrary, we find that recollision can and does significantly enhance double ionization, even to the extent of forming a "knee", the signature of the nonsequential process. Using a classical model, we explain two apparently contradictory experiments, the absence of a knee for helium and its presence for magnesium.

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Time–frequency analysis of chaotic systems

Chandre

Wiggins

Uzer

2003

Physica D: Nonlinear Phenomena

134

119

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We describe a method for analyzing the phase space structures of Hamiltonian systems. This method is based on a time-frequency decomposition of a trajectory using wavelets. The ridges of the time-frequency landscape of a trajectory, also called instantaneous frequencies, enable us to analyze the phase space structures. In particular, this method detects resonance trappings and transitions and allows a characterization of the notion of weak and strong chaos. We illustrate the method with the trajectories of the standard map and the hydrogen atom in crossed magnetic and elliptically polarized microwave fields.

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Strong Field Double Ionization: The Phase Space Perspective

2009

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Cristel Chandre

Recollisions and Correlated Double Ionization with Circularly Polarized Light

Time–frequency analysis of chaotic systems

Strong Field Double Ionization: The Phase Space Perspective

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