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We can then look at how that energy changes when we apply other kinds of fields. The most significant type of interaction is simply between the charge of the electron and an applied electric field ...
We directly visualize that the electric field distribution (blurred by the sub-Å size electron probe) drastically changes within the single Au atom in a shape that relates to the spatial ...
Second, we develop the full method in a simulation study of GaN to show the validity of this assumption and demonstrate the possibility of mapping atomic electric fields, charge- and electron ...
Researchers at Nagoya University in Japan have developed an interface that creates "virtual sorting nanomachines" without the ...
Advancements in THz technology facilitate non-destructive control of electron behavior, crucial for innovations in quantum ...
Any asymmetry in the electron’s shape ... depending on which direction the “egg” was oriented relative to an electric field. The researchers found no difference in the molecules’ energy ...
The precise measurement of states in atomic and molecular systems can help to validate fundamental physics theories and their ...
Something like this (image credit: The Electron Cloud ... The answer lies in the electric field. Every atom has its own electric field, and when you put two atoms close together, they ...
The orbital angular momentum of electrons has long been considered a minor physical phenomenon, suppressed in most crystals ...
Now that's precision measurement: the electron is a perfect sphere ... on the spins of electrons exposed to strong electric and magnetic fields--but found nothing. Indeed, the researchers say ...
(Courtesy: Forschungszentrum Jülich / Sascha Kreklau) Researchers in Germany and Korea have fabricated a quantum sensor that can detect the electric and magnetic ... on the strength of the magnetic ...