Publications by authors named "Seyyed-Javad Robatjazi"
The efficient generation, accurate detection, and detailed physical tracking of energetic electrons are of applied interest for high harmonics generation, electron-impact spectroscopy, and femtosecond time-resolved scanning tunneling microscopy. We here investigate the generation of photoelectrons (PEs) by exposing plasmonic nanostructures to intense laser pulses in the infrared (IR) spectral regime and analyze the sensitivity of PE spectra to competing elementary interactions for direct and rescattered photoemission pathways. Specifically, we measured and numerically simulated emitted PE momentum distributions from prototypical spherical gold nanoparticles (NPs) with diameters between 5 and 70 nm generated by short laser pulses with peak intensities of 8.
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- The study investigates how isolated dielectric nanoparticles (specifically SiO) emit photoelectrons when exposed to intense laser pulses, focusing on the effects of particle size and laser intensity.
- * The researchers developed a new experimental approach to minimize errors from averaging over the focal volume during measurements.
- * Results show that smaller nanoparticles produce lower energy electrons, while larger ones generate significantly higher energy electrons, with some reaching up to 200 times the expected energy due to enhanced ionization effects.
For the last several decades, the wavelength range accessible for strong-field, few-cycle studies has remained limited to the visible, near infrared and mid-wave infrared regimes. In particular, sources in the long-wave infrared have been lacking. We report the development of a 1 kHz, few-cycle laser source with up to a 9 μm central wavelength and gigawatt peak powers.
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