For centuries, scientific progress has depended on more precise tools for measuring the world around us. Galileo’s telescope ...

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

Anomalous” heat flow, which at first appears to violate the second law of thermodynamics, gives physicists a way to detect ...

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

Expert guests on UNSW's Engineering the Future podcast series explain why quantum sensing, quantum communication and quantum ...

Quantum mechanics shows that particles in our universe do not have fixed properties like everyday objects. They exist in a state of superposition until a disturbance forces them to "choose" ...

Using a chain of atoms in single file to simulate the event horizon of a black hole, a team of physicists in 2022 observed ...

Constantinos G. Vayenas examines positron and electron catalysis of neutrino hadronization, as they continue to explore how ...

When sunlight strikes a leaf, energy races across protein structures before it can be stored and used. For decades, scientists have wondered whether quantum mechanics plays a role in this astonishing ...

Alexander Grothendieck was a titan in his field, making deep connections that fuelled a revolution in mathematics, before ...

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 ...