Researchers at the University of Twente and Utrecht University demonstrated for the first time that quantum states in the ...

An electric field can be characterized or represented as a set of lines with arrows on referred as electric field-lines which fill up space. It determines the magnitude and the direction, of the ...

Researchers at Aalto University have shown that a nanoparticle suspension can serve as a simple model for studying the formation of patterns and structures in more complicated non-equilibrium systems, ...

Overview of dynamic graphene oxide sorting: (a) The system uses electron beams on silicon nitride membranes to create electric field patterns that generate opposing forces on graphene oxide sheets. (b ...

In a remarkable shift from conventional knowledge, a recent study reveals groundbreaking insights into the behavior of water ...

Electrifying: a bumble-bee's tiny hairs detect electric fields. (Courtesy: G P Sutton et al.) The bumble-bee uses its distinctive yellow-and-black fuzz to sense weak electric fields. This is the ...

The new system will not only be a valuable tool for studying patterning processes but also has a wide range of potential technological applications. Photographs and micrographs showing the various ...

Researchers at Nagoya University in Japan have developed an interface that creates "virtual sorting nanomachines" without the need to manufacture actual devices. By projecting electron beams onto thin ...