A team of physicists has pushed the limits of quantum control by cooling the rotational motion of a nanoscale object to its lowest possible energy state.

A team of physicists set out to test some of the most exciting claims in quantum computing—and found a very different story. Instead of confirming breakthroughs, their careful replication studies ...

Artificial intelligence has long been seen as a way to supercharge drug development. | Artificial intelligence has long been seen as a way to supercharge drug development. But a whole new frontier of ...

Discover the fundamentals of quantum computing and career opportunities at The Hindu EducationPlus Career Counselling Fair ...

For decades, confirming quantum entanglement meant isolating a handful of particles, cooling them to near absolute zero, and ...

Advancing the rapidly growing field of photonic quantum information processing requires novel, highly scalable methods to ...

Quantum mechanics tells us that a particle can never be perfectly still. But how precisely can it be oriented? A research ...

Noncommutative Quantum Field Theory represents an ambitious extension of standard quantum field theory that incorporates a fundamental noncommutativity in the structure of spacetime. In these models, ...

Quantum mechanics has revealed that magnetic fields exert profound influences on microscopic systems, modulating quantum states and facilitating emergent phenomena with global technological potential.

A Majorana fermion is a particle that would be identical to its antiparticle. Such an object has not yet been found. However, ...