Hindawi » Laser and Particle Beams
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Laser and Particle Beams is an open-access journal publishing original research and review articles covering basic physics issues of intense laser and particle beams, and the interaction of these beams with the matter. One of the world's largest fully open-access journal publishers. We believe in openness, scholarly publishing, and research communication.
Hindawi » Laser and Particle Beams
7M ago
Porous materials have peculiar characteristics that are relevant for inertial confinement fusion (ICF). Among them, chemically ..read more
Hindawi » Laser and Particle Beams
7M ago
Helium or neopentane can be used as surrogate gas fill for deuterium (D2) or deuterium-tritium (DT) in laser-plasma ..read more
Hindawi » Laser and Particle Beams
8M ago
The laser-induced breakdown spectroscopy (LIBS) technique is one of the most promising laser-based analytical techniques ..read more
Hindawi » Laser and Particle Beams
9M ago
The energy problem is an open issue becoming increasingly pressing. The possibility to use nuclear fusion as an alternative ..read more
Hindawi » Laser and Particle Beams
10M ago
Short-pulse, ultrahigh-intensity lasers have opened new regimes for studying fusion plasmas and creating novel ultrashort ion ..read more
Hindawi » Laser and Particle Beams
11M ago
This study is the further research of the path encoding pulse compression technique. In this study, the regularity of pulse ..read more
Hindawi » Laser and Particle Beams
1y ago
Earlier, the experiments on the aneutronic proton-boron (pB) fusion in a miniature nanosecond vacuum discharge (NVD) with ..read more
Hindawi » Laser and Particle Beams
1y ago
Laser-driven wakefield acceleration (LWFA) has attracted lots of attention in recent years. However, few writers have been ..read more
Hindawi » Laser and Particle Beams
1y ago
Solid-state nuclear track detectors (CR-39 type) are frequently used for the detection of ions accelerated by laser-plasma ..read more
Hindawi » Laser and Particle Beams
1y ago
A transmission line circuit model was conducted to compare the performances of the two-level 2.5 Ω magnetically ..read more