The mysterious phenomenon that Einstein once described as “spooky action at a distance” was seen as a wavefunction between two entangled photons.
New superconductor could lead to quantum computing breakthrough
A new type of superconductor may just be what physicists have been searching for over the past 40 years.
Unbreakable communications using the power of quantum cryptography
Quantum key distribution is the only way to ensure an absolutely secured connection protected by the laws of quantum physics.
A deeper look at quantum tunneling lays the groundwork for new discoveries
Vital to the fusion process and used in a wealth of technological applications, new research shows quantum tunneling is still delivering surprises.
Atoms vs apples: How quantum effects challenge gravity’s rules
New research reveals that quantum effects defy the universality of free fall, providing a potential experimental pathway to test quantum gravity.
Quantum tunneling may have ruled out a popular theory of dark matter
The composition of dark matter remains a mystery, but a new theory involving quantum tunneling may have eliminated some candidates.
How does rotation affect the quantum properties of electrons?
A study explores how the behavior of electrons changes on the mesoscale under magnetic fields and rotation.
Entangling particles helps improve the accuracy of quantum measurements
Using 19 different quantum computers, scientists demonstrate how entangled particles break limitations in accuracy on the sub-atomic scale.
Studying quantum aspects of gravity with entanglement
What would it mean for two particles to become gravitationally entangled?
Building ultra-precise clocks thanks to quantum entanglement
Scientists use quantum entanglement to compare two atomic clocks achieving what might be the ultimate precision possible.