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We compare wavepackets induced by ldquoR-dependent ionizationrdquo and bond-softening in strong fields through both simulations and experiments. We conclude that the former produces stronger vibrations in hot molecules than the latter and results in vibrational cooling.
We observe large amplitude coherent vibrations in ground state neutral I2 created by strong-field ionization, through “Lochfrass,” or “R-selective ionization.” Simulations show that the vibrational coherence is stronger for hot molecules than for cold molecules.
We observe large amplitude coherent vibrations in ground state neutral I2 created by strong-field ionization, through “Lochfrass,” or “R-selective ionization.” Simulations show that the vibrational coherence is stronger for hot molecules than for cold molecules.
We observe large amplitude coherent vibrations in ground state neutral I2 created by strong-field ionization, through ldquoLochfrass,rdquo or ldquoR-selective ionization.rdquo Simulations show that the vibrational coherence is stronger for hot molecules than for cold molecules.
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