Rice University study shows quantum entanglement speeds molecular energy transfer, offering insights for future solar ...

Quantum computing is still in its early stages of development, but researchers have extensively explored its potential uses.

Scientists are making significant progress in quantum physics, developing new ways to study quantum phenomena that could lead ...

One often-repeated example illustrates the mind-boggling potential of quantum computing: A machine with 300 quantum bits ...

The first reported demonstration of “unconditional” quantum advantage has little practical value—but that's perhaps why it ...

New erbium molecular qubits work with telecom systems and silicon photonics, opening routes to quantum networks, sensors, and ...

The team achieved a record-breaking coherence time of 12.6 seconds—the longest ever for hyperfine qubits in an optical ...

If you would like to learn more about how the Nobel Prize for Physics is awarded, check out this profile of Lars Brink, who served on the Nobel Committee for Physics on eight occasions.

Entangled light proves quantum computers can do what classical methods can't - cut years of work into seconds, an enormous quantum advantage ...

A new experiment confirms that angular momentum conservation holds even when a single photon is split into two.

Caltech physicists report they have created the largest qubit array assembled to-date: 6,100 neutral-atom qubits trapped in a ...

A study from Rice University, published in PRX Quantum Oct. 1, 2025, has found that energy transfers more quickly between ...