At the atomic and subatomic scales, objects behave in ways that challenge the classical worldview based on day-to-day interactions with...
When magnetic field lines of opposite directions merge, they create explosions that can release massive amounts of energy. On the...
Researchers have developed a new way to apply antireflective (AR) coatings to 3D printed multi-lens systems as small as 600...
Polaritons offer the best of two very different worlds. These hybrid particles combine light and molecules of organic material, making...
Harnessing the power that makes the sun and stars shine could be made easier by powerful magnets with straighter shapes...
A camera usually requires a lens system to capture a focused image, and the lensed camera has been the dominant...
Lawrence Livermore National Laboratory (LLNL) researchers have developed a new all-optical ultrasound technique capable of performing on-demand characterization of melt...
Quantum weirdness is opening new doors for electron microscopes, powerful tools used for high-resolution imaging. Two new advances from the...
Lawrence Livermore National Laboratory (LLNL) researchers have refined the measurement of the gamma (γ)-to-neutron branching ratio in deuterium-tritium (D-T) fusion...
MIT research scientists Pablo Rodriguez-Fernandez and Nathan Howard have just completed one of the most demanding calculations in fusion science—predicting...
In physics, as in life, it’s always good to look at things from different perspectives. Since the beginning of quantum...
Quantum computing holds the potential to be a game-changing future technology in fields ranging from chemistry to cryptography to finance...
