Scientists have linked nuclear spins inside silicon chips, marking a leap toward scalable quantum computers. Engineers at UNSW have achieved a major breakthrough in quantum computing by creating what ...

Assigning ends of the system the standard experimental nicknames of Alice and Bob, the task required Alice to create a ...

This article explores how our understanding of the universe has evolved—from the scale of everyday experience down to the ...

The world’s best clocks may be sensitive to an odd mix of quantum and relativistic effects that would stretch time and test ...

Childs has been recognised for his contributions to quantum simulation and Hamiltonian dynamics. His work has focused on developing fast quantum algorithms for simulating Hamiltonian dynamics, which ...

Researchers kept more than 6,000 qubits coherent while operating with 99.98% accuracy. Here's why that matters for quantum ...

By using something called a quantum grid, scientists have found a clever way to simultaneously measure momentum and position ...

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

While William Rowan Hamilton isn’t a household name like, say, Einstein or Hawking, he might have been. It turns out the ...

Astrophysicist Paul Sutter explains Quantum Mechanics - the body of scientific laws that describe the wacky behavior of photons, electrons and the other particles that make up the universe.

OSTP’s vision for federally funded research prioritizes emerging technologies, nuclear energy, biotechnology, national security, and space exploration.

Dan Blumenthal & collaborators work to translate various functions of current cold-atom quantum experiments to a more portable and deployable form From The UCSB Current article "Chip-scale cold atom ...