A hundred years ago this week, at the height of the quantum revolution, Austrian physicist Erwin Schrödinger submitted a ...

Physical systems become inherently more complicated and difficult to produce in a lab as the number of dimensions they exist ...

Quantum computers need extreme cold to work, but the very systems that keep them cold also create noise that can destroy fragile quantum information. Scientists in Sweden have now flipped that problem ...

Quantum computers, systems that process information leveraging quantum mechanical effects, are expected to outperform ...

Quantum synchronization is an emergent phenomenon whereby interacting quantum systems develop a coherent phase relationship despite their inherent quantum fluctuations and decoherence. Unlike its ...

A team from UNIGE shows that it is possible to determine the state of a quantum system from indirect measurements when it is coupled to its environment.

Quantum memory and communication systems represent a transformative frontier in information technology, harnessing quantum mechanical phenomena to store, manipulate and transmit quantum states over ...

Can quantum computing save us from 500 missiles attacking simultaneously? Perhaps ... and it has a far better shot than ...

A long-standing bottleneck in photonic quantum technology may finally be easing. Researchers in Germany ...

Montana State's QCORE quantum center has received a $31.5 million Air Force grant, making it one of seven global institutions ...

Which of these quantum computing plays has a brighter future?

The race to fulfill the potential of quantum computing will be a marathon, not a sprint.