Collision Course: Electromagnetic Waves Interact in Groundbreaking Experiment
Researchers show it’s possible to make photons that cross paths interact, paving the way for technology breakthroughs. A research team at the Advanced Science Research…
Researchers show it’s possible to make photons that cross paths interact, paving the way for technology breakthroughs. A research team at the Advanced Science Research…
A team of researchers has harnessed a remarkable increase in computing capability to solve a decades-long mystery regarding the potential for optical waves to be…
The LMS instrument will examine the electrical conductivity of the interior of the Moon. The Southwest Research Institute recently delivered the Lunar Magnetotelluric Sounder (LMS)…
The discovery establishes the foundations for revolutionary applications in wireless communications and optical computing. When we look in a mirror, we are used to seeing…
According to researchers, a groundbreaking electromagnetic device has set a new benchmark for precision in the field of mechanobiology. This device, which enables accurate measurement…
Researchers create compliant mechanism-enabled, reconfigurable antenna. Reconfigurable antennas — those that can tune properties like frequency or radiation beams in real-time, from afar — are…
Osaka University researchers show the relativistic contraction of an electric field produced by fast-moving charged particles, as predicted by Einstein’s theory, which can help improve radiation and…
Incorporating established physics into neural network algorithms helps them to uncover new insights into material properties According to researchers at Duke University, incorporating known physics…
When ITER, the international fusion experiment, starts up in 2025, one of the major priorities will be to minimize or mitigate violent disruptions that could…
What Is the Electromagnetic Spectrum? The electromagnetic spectrum is a range of frequencies of electromagnetic radiation. From long to short wavelength, the EM spectrum includes…
Arase satellite uncovers coupling between plasma waves and charged particles in Geospace Scientists unravel a bit more of the mystery underlying how wave-particle interactions generate…
A Lancaster physicist has proposed a radical solution to the question of how a charged particle, such as an electron, responded to its own electromagnetic…
Researchers at EPFL, China, Spain and the Netherlands have built a micro-device that uses vibrating molecules to transform invisible mid-infrared light into visible light. The…
Engineers have successfully transferred digitally encoded information wirelessly using nuclear radiation instead of conventional technology. Radio waves and mobile phone signals rely on electromagnetic radiation…
Cascaded metasurfaces for dynamic control of THz wavefronts Electromagnetic (EM) waves in the terahertz (THz) regime contribute to important applications in communications, security imaging, and…
A one-atom-thin 2D magnet developed by Berkeley Lab and UC Berkeley could advance new applications in computing and electronics. The development of an ultrathin magnet that operates…
Project offers new step toward study of emergence, ‘materials by design,’ and future nanomagnets. Using a D-Wave quantum-annealing computer as a testbed, scientists at Los…
New findings might help inform the design of more powerful MRI machines or robust quantum computers. MIT physicists have observed signs of a rare type…