Quantum entanglement
MIT develops breakthrough quantum interconnect for scalable computing
Device enables direct communication among multiple quantum processors.
New superconducting quantum processor outpaces world’s fastest supercomputer by quadrillions
A 105-qubit superconducting quantum processor with 10¹⁵ times speedup in circuit sampling.
The first-of-its-kind quantum gate operates between two photonic degrees
Photonic degrees of freedom describe different properties of a photon.
New strategy to maintain communications in an unpredictable quantum network
Adding bridges to stabilize quantum networks.
Scientists investigated the fastness of quantum entanglement at the attosecond scale
How fast is quantum entanglement?
Scientists created an ‘imprint’ on a super photon
A method could have potential applications for tap-proof communication.
Frequency-domain photon number-path entanglement: a new form of quantum entanglement
Unveiling a new quantum frontier.
New method uses classical computers to check the accuracy of complex quantum systems
Verifying the work of quantum computers.
Improving quantum computing using polarization
Paving the way for quantum imaging in many different fields.
Scientists discovered a first-of-its-kind 3D crystalline metal
Rice scientists pull off quantum coup.
A new method to search for deviations from the Standard Model of physics
Entanglement to the rescue.
Physicists found a strange metal is strangely quiet in quantum noise experiment
Rice physicists find evidence of exotic charge transport in material.
A key ingredient found for many quantum computation and communication
A linear path to efficient quantum technologies.
Quantum entanglement wave detected for the first time
An artificial quantum magnet featuring a quasiparticle.
Physicists used a 350-year-old theorem to reveal new properties of light waves
Want to Know How Light Works? Try Asking a Mechanic.
A new quantum theory explains the “light-induced phase” of matter
The new theory has the potential to revolutionize the field of quantum photonics.
Quantum ‘magic’ could explain how space and time emerged
Physicists relate the quantum property of ‘magic’ to the chaotic nature of black holes for the first time.
There is no second law of entanglement after all, suggests a study
Entanglement is even richer than we have given it credit for.
A quantum experiment to observe wormhole dynamics
The research is a step toward studying quantum gravity in the lab.
A negative correlation is demonstrated between the two spins of an entangled pair of electrons
Physicists used spin filters made of nanomagnets and quantum dots.
A new model in optical fibers advances quantum sensing
This significantly reduced the limitations of internal loss and phase noise.
Scientists successfully combined two of the spookiest features of quantum mechanics
An Entangled Matter-wave Interferometer: Now with Double the Spookiness!
