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Controlling quantum motion and hyper-entanglement
In hyper-entanglement, two characteristics of a particle pair are correlated. As a simple analogy, this would be like a set of twins separated at birth having both the same names and same types of cars: The two traits are correlated between the twins. In the new study, Endres and his team were able to hyper-entangle pairs of atoms such that their individual states of motion and their individual electronic states—their internal energy levels—were correlated among the atoms.
May 29, 20254 min read


New quantum phase realised in a cold-atom quantum simulator
The work is set to open new avenues for the study of the exotic physics arising from the interplay of interactions and a magnetic field. This includes, for example, microscopic studies of the fractional quantum Hall effect and its properties such as anyonic excitations, long-range entanglement and topological order. These phenomena offer the potential to deepen our understanding of fundamental quantum physics while also paving the way for practical applications, for example i
May 27, 20253 min read


Tightening the math behind a key quantum process
An exact expression for a key process needed in many quantum technologies has been derived by a RIKEN mathematical physicist and a collaborator. This could help to guide advances in quantum technologies.
Apr 30, 20252 min read


An elegant method for the detection of single spins using photovoltage
Diamonds with certain optically active defects can be used as highly sensitive sensors or qubits for quantum computers, where the quantum information is stored in the electron spin state of these colour centres. However, the spin states have to be read out optically, which is often experimentally complex. Now, a team at HZB has developed an elegant method using a photo voltage to detect the individual and local spin states of these defects. This could lead to a much more comp
Apr 23, 20252 min read


Superconductivity traverses a single molecule bridge
Researchers have caused a material’s superconductivity to permeate into a nearby normal metal via a single molecule. They showed that this effect could be controlled and say that this control could allow the creation of so-called Majorana quasiparticles, which many research teams are exploring as future quantum bits (qubits) for quantum computers.
Apr 15, 20253 min read


Hidden behavior of quantum quasicrystals
A quantum quasicrystal is a state of matter characterized by an ordered but nonrepeating arrangement of quantum particles. Such phases ar...
Apr 9, 20251 min read
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