Discoveries over the last two decades have shed light on a crucial role for “quantumness” in human cognition – how the human brain processes information to acquire knowledge or understanding.
Scientists achieve groundbreaking room-temperature quantum coherence for 100 nanoseconds, propelling molecular qubits closer to practical quantum computing.
In a study that could help fill some holes in quantum theory, the U.S. team recreated a "quantum bomb tester" in a classical droplet test.
In a noteworthy first, a team of Princeton physicists has been able to link together individual molecules into special states that are quantum mechanically “entangled.”
The scientists hope the breakthrough is the start of a new era. Though this experiment was performed with simple, two-atom molecules, they plan to work their way up to handling larger and more complex molecules.
Using the powerful Relativistic Heavy Ion Collider (RHIC) in US. scientists have shown how it's possible to glean precise details on the arrangement of gold's protons and neutrons using a kind of quantum interference never before seen in an experiment.
Quantum brain processes could explain why we can still outperform supercomputers when it comes to unforeseen circumstances, decision making, or learning something new, while the discovery may also shed light on consciousness.
Australian scientists have created the world's first-ever quantum computer circuit – one that contains all the essential components found on a classical computer chip but at the quantum scale.
Researchers have proven that near error-free quantum computing is possible, paving the way to build silicon-based quantum devices compatible with current semiconductor manufacturing technology.
The new chip has 127 "qubits", twice as many as the previous IBM processor. The company called its new Eagle processor "a key milestone on the path towards practical quantum computation".
Scientists have cooled a large, human-scale object to close to its motional ground state. The scientists say they now have a chance to observe the effect of gravity on a massive quantum object.
A team of Dutch researchers reports realization of the first multi-node quantum network, connecting three quantum processors. Their findings mark an important milestone towards the future quantum internet.
A joint team of researchers was able to use quantum teleportation to send information over a distance of 44km. If successfully implemented, quantum internet would usher a new era of communication.
Physicists report the development of a quantum algorithm with the potential to study a class of many-electron quantums system using quantum computers.
Quantum teleportation is an key way to transmit info in quantum computing. In a new step forward, researchers say it may be possible between electrons.
