If you have two highly frustrated layers that are both very sensitive to perturbations, like strain—or in the magnetic case, a magnetic field—then the question is whether you can couple the two ...

Uranium ditelluride loses superconductivity at low magnetic fields and regains it at extreme ones. A new technique reveals ...

This image shows the NMR probe (the metal cylinder) and a small-scale battery pouch cell (the rectangular device on top of the probe) used in the Argonne study. Argonne develops a novel method that ...

Solar radio bursts are intrinsically linked to the motion of their emitting source through the coronal and heliospheric ...

NASA’s Parker Solar Probe has observed unusual variations in type III solar radio bursts that point to large magnetic field deflections, known as switchbacks, near the Sun. Analysis of 24 events found ...

NASA’s Parker Solar Probe has provided the first direct in-situ measurements of magnetic reconnection, capturing the exact 'spark' that ignites solar .

Despite being relatively nearby, very few space probes have visited the solar system's innermost planet. Any spacecraft aiming to study Mercury must accelerate to incredible speeds, and that can take ...

While using a new computer model to analyze Voyager data, scientists found the Sun’s distant magnetic field is made up of bubbles approximately 100 million miles wide. The bubbles are created when ...

A common approach to dealing with EMI still seems to be ignore it as long as possible, and hope it won't be a problem. As you know, this approach rarely works, which becomes painfully evident in the ...

Scientists analyzing data from NASA’s Parker Solar Probe have linked unusual patterns in solar radio bursts to large magnetic ...