This article provides an overview of laser‐induced nuclear fusion, an emerging field that employs ultra‐intense laser pulses to facilitate and enhance nuclear fusion reactions. By leveraging the ...

The illustration depicts an intense laser field (red wave) interacting with Deuterium and Tritium nuclei. By modifying the collision energy distribution, the laser field facilitates quantum tunneling ...

Researchers from Heinrich Heine University Düsseldorf and Forschungszentrum Jülich have confirmed “for the first ...

US-based Inertia Enterprises has entered into a strategic partnership with Lawrence Livermore National Laboratory ...

Physicists are teasing a potential leap in nuclear fusion that sounds almost absurd on its face: a path to reactions that are “billion times” more efficient by swapping today’s ultra-short, ...

The world’s only net-positive fusion experiment has been steadily ramping up the amount of power it produces, TechCrunch has learned. In recent attempts, the team at the U.S. Department of Energy’s ...

Opportunities to invest in commercial nuclear fusion are limited for now, but these companies stand to benefit from their ...

Fusion startups have raised $7.1 billion to date, with the majority of it going to a handful of companies.

What if the key to solving humanity’s energy crisis has been hiding in plain sight, dismissed for decades as an impossible dream? In this overview, Two Bit da Vinci explores how Zap Energy is ...

The UK Atomic Energy Authority (UKAEA) is installing a new supercomputer named Sunrise, which is specifically designed to support nuclear fusion research. Based on AMD Epyc and Instinct-powered Dell ...

Particle accelerators such as those at the European Organization for Nuclear Research (CERN) in Geneva are typically highly ...