In the world of quantum computing, the Hilbert space dimension—the measure of the number of quantum states that a quantum ...

MIT scientists have snapped the first-ever images of individual atoms interacting freely in space, making visible the elusive ...

Until now, atoms have never been imaged interacting freely in space, but a new technique known as non-resolved microscopy has ...

Scientists in Europe have successfully simulated a process known as false vacuum decay, a hypothetical event that could one day spell the end of the universe. The experiment, carried out using ...

Physicists captured the first images of individual atoms freely interacting in space. The pictures reveal correlations among the 'free-range' particles that until now were predicted but never directly ...

A particle that lacks the energy to climb a barrier can still appear on the far side, a curiosity known as “quantum tunneling ...

Scientists have just snapped pictures of single atoms as they move around freely, capturing details once hidden from sight.

Researchers captured the first-ever images of atoms freely interacting in space, offering a rare glimpse into quantum ...

Bright idea: Wolfgang Ketterle (in his M.I.T lab) hopes to discover new forms of matter by studying ultracold atoms. Richard Howard Where's the coldest spot in the universe? Not on the moon ...

MIT physicists have taken the first-ever direct images of individual atoms interacting freely in space. Their findings, ...

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