2014
DOI: 10.1039/c3cp55380a
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Photoionization of clusters in intense few-cycle near infrared femtosecond pulses

Abstract: In this article we present a perspective on the current state of the art in the photoionization of atomic clusters in few-cycle near-infrared laser pulses. Recently, several studies have reported intriguing phenomena associated with the photoionization of clusters by pulses as short as ~10 fs which approach the natural timescales of collective electronic motion in such nanoscale aggregates. In contrast to the dynamics occurring on few- and sub-picosecond timescales where ionic motion sets in and plays a key ro… Show more

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Cited by 25 publications
(19 citation statements)
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“…To outline the microscopic processes evolving in the course of droplet ionization, figure 2 depicts MD simulation results for the time evolution of several characteristic quantities for selected dopant species. Shown are the intensity envelope of the laser pulse in panel (a) and, averaged over trajectory bundles, the charge per dopant atom (b) and per He atom (c), and the probability of igniting a He nanoplasma (d), for He 2171 droplets doped with K 8 and K 16 (both on the surface), Ca 8 (in a dimple on the surface) as well as Xe 8 (in the center). The pulse peak intensity is = I 10 14 W cm −2 .…”
Section: Simulated Ionization Dynamicsmentioning
confidence: 99%
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“…To outline the microscopic processes evolving in the course of droplet ionization, figure 2 depicts MD simulation results for the time evolution of several characteristic quantities for selected dopant species. Shown are the intensity envelope of the laser pulse in panel (a) and, averaged over trajectory bundles, the charge per dopant atom (b) and per He atom (c), and the probability of igniting a He nanoplasma (d), for He 2171 droplets doped with K 8 and K 16 (both on the surface), Ca 8 (in a dimple on the surface) as well as Xe 8 (in the center). The pulse peak intensity is = I 10 14 W cm −2 .…”
Section: Simulated Ionization Dynamicsmentioning
confidence: 99%
“…In case of K dopants, a single ionization per K atom occurs early in the pulse at »t 250 fs. For K 16 , the incubation time is 100-150 fs until the average He charge begins to rise. During the incubation time, EII of He competes with a partial drain (outer ionization [41]) of the seed electrons.…”
Section: Simulated Ionization Dynamicsmentioning
confidence: 99%
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“…Although a generic understanding of the intense NIR pulse dynamics of single component clusters from few-femtosecond to picosecond timescales has been achieved [6,7], the ignition of the nanoplasma as well as the charging of dopants embedded inside ionizing host clusters remains to be investigated in greater detail [9,10]. A series of experiments involving dopant clusters grown in He nanodroplets have led to similar conclusions in accordance with the generic nanoplasma dynamics of single component clusters [2,11] However, in certain cases the presence of a He shell surrounding the dopant cluster was found to distinctly influence the charging dynamics of the dopant atoms [12].…”
Section: Introductionmentioning
confidence: 99%