Single-shot ultrafast optical imaging can capture two-dimensional transient scenes in the
optical spectral range at≥ 100 million frames per second. This rapidly evolving field …

Plasma-based accelerators that impart energy gain as high as several GeV to electrons or
positrons within a few centimeters have engendered a new class of diagnostic techniques …

Femtosecond laser technology has attracted significant attention from the viewpoints of
fundamental and application; especially femtosecond laser processing materials present the …

Multidimensional optical imaging has seen remarkable growth in the past decade. Rather
than measuring only the two-dimensional spatial distribution of light, as in conventional …

In the recent decade, single-shot ultrafast optical imaging by active detection, called single-
shot active ultrafast optical imaging (SS-AUOI) here, has made great progress, eg, with a …

Tomography—cross-sectional imaging based on measuring radiation transmitted through
an object along different directions—enables non-invasive imaging of hidden stationary …

High-speed optical imaging is an indispensable technology for blur-free observation of fast
transient dynamics in virtually all areas including science, industry, defense, energy, and …

If the shaft diameter can be measured in-situ during the finishing process, the closed-loop
control of the shaft diameter processing process can be realized and the machining …

Recent experiments with 100 terawatt-class, sub-50 femtosecond laser pulses show that
electrons self-injected into a laser-driven electron density bubble can be accelerated above …

In this paper, we present results on a scalable high-energy electron source based on laser
wakefield acceleration. The electron accelerator using 30–80 TW, 30 fs laser pulses …