For the first time, LBL researchers have captured direct images of the Wigner molecular crystal using scanning tunneling microscopy (STM) —- an imaging technique that produces high-resolution visuals of materials at the atomic scale.
Electrons are known to move fast without ever taking a break, but when they form a Wigner crystal, they become still and stable
This crystal holds importance in quantum physics as it reveals how charged particles, like electrons, can form ordered patterns. It helps researchers explore the effects of quantum mechanics and electrostatic forces together. By moving the tip across the surface and measuring this current, the STM creates a detailed map of the surface’s atomic structure. This allows scientists to see things
Quantum Mechanics Quantum Phase
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