Researchers are exploring multi-level atomic interactions to enhance quantum entanglement. Using metastable states in ...

Quantum Mechanics is a strange world ... Electrons are particles. Sub atomic particles that is, which opens them up to this wave-particle duality property of nature. If we look at electrons ...

What if time is not as fixed as we thought? Imagine that instead of flowing in one direction—from past to future—time could ...

The photoelectric effect, first explained by Albert Einstein in 1905, laid the foundation for quantum mechanics. It occurs when high-energy light strikes atoms, releasing electrons. This phenomenon is ...

For almost a century, measurements have indicated that a significant proportion of matter in the universe consists of unknown ...

For the first time, researchers have been able to measure the quantum state of electrons ejected from atoms that have ...

The triumph of quantum mechanics in atomic spectroscopy provided a compelling ... the motion of the electron charge in the quasi-linear structure of the optical chromophore of the J-aggregate.

But quantum mechanics underlies the structure and origin of our universe and is even ... that can operate at temperatures achievable with tabletop refrigerators. Atomic quantum memory technology, ...

Did these researchers truly just crack our fundamental concepts of (quantum) physics wide open? As it turns out, not really. Much of the confusion stems from the fact that photons aren’t little ...

Current atomic interferometers rely on nanomechanical ... According to the laws of quantum mechanics, this diffraction is only possible because the energy exchange between graphene and the ...

ℏ' equates to the fine structure constant multiplied by ℏ, aligning perfectly with established values from quantum mechanics.