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Issue 23, 2019
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Size-dependent ion emission asymmetry of free NaCl nanoparticles excited by intense femtosecond laser pulses

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Abstract

We report on asymmetric ion emission of size-selected NaCl nanoparticles (d = 100–600 nm) ionized by intense femtosecond laser pulses (λ = 800 nm, peak intensity ∼1013 W cm−2). Velocity map imaging indicates that a higher ion yield is observed in the propagation direction of the laser pulses than in the opposite direction. This asymmetric ion emission is found to be size-dependent and increases with particle size. This pronounced size dependence is interpreted in terms of discrete dipole simulations of the internal electric field in the nanoparticles, which reveal that the internal field is enhanced in the forward propagation direction of the laser pulses, occurring for nanoparticles >100 nm. The ion emission asymmetry is further found to depend on the peak intensity of the laser radiation. Nanoparticles of 100 nm show a symmetric distribution of ion emission, while the ion emission for 600 nm particles is found to become increasingly symmetric as the peak intensity is increased. In addition to single pulse ionization experiments, we explore the angular distribution of ion emission of resonantly heated NaCl nanoparticles using a pump–probe setup. Here, ion emission is found to be more symmetric for resonantly heated nanoparticles than for single pulse excitation. These differences are explained by the absorption mechanism, where the probe pulse in a dual pulse experiment can be efficiently absorbed by plasmonic excitation for suitable delays between both laser pulses.

Graphical abstract: Size-dependent ion emission asymmetry of free NaCl nanoparticles excited by intense femtosecond laser pulses

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Article information


Submitted
04 Feb 2019
Accepted
16 May 2019
First published
16 May 2019

Phys. Chem. Chem. Phys., 2019,21, 12130-12138
Article type
Paper

Size-dependent ion emission asymmetry of free NaCl nanoparticles excited by intense femtosecond laser pulses

E. Antonsson, F. Gerke, L. Merkel, I. Halfpap, B. Langer and E. Rühl, Phys. Chem. Chem. Phys., 2019, 21, 12130
DOI: 10.1039/C9CP00696F

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