A team of physicists has pushed the limits of quantum control by cooling the rotational motion of a nanoscale object to its lowest possible energy state.
Quantum mechanics tells us that a particle can never be perfectly still. But how precisely can it be oriented? A research ...
Quantum mechanics tells us that a particle can never be perfectly still. But how precisely can it be oriented? A research ...
Quantum mechanics tells us that a particle can never be perfectly still. But how precisely can it be oriented? A research team at the University of ...
Scientists have successfully controlled and measured the rotational motion of an object at cryogenic temperatures near ...
Interesting Engineering on MSN
World-first: Quantum ground state of rotation achieved in silica nanorotor
A collaborative effort between researchers at multiple institutes in Europe achieved a global first ...
Researchers cool a levitated silica nanorotor to its librational quantum ground state in two rotational degrees of freedom ...
Morning Overview on MSN
Spinning plasma simulations explain fusion heat-load imbalance, US lab says
Scientists at Princeton Plasma Physics Laboratory have identified a long-standing asymmetry in how fusion plasma distributes ...
Morning Overview on MSN
Silica nanorotor reaches quantum ground state of rotation in 2D
A team of physicists from the University of Vienna, TU Wien, and Ulm University has cooled a levitated silica nanoparticle to ...
Researchers recently uncovered a new way for bacteria to generate motion, revealing how microscopically small life forms can ...
At the Institute of Science and Technology Austria (ISTA), Jérémie Palacci's research group is venturing into ...
Scientists at Institute of Science and Technology Austria have demonstrated that Escherichia coli can spin microscopic discs ...
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