Researchers have built the most sophisticated quantum computer yet, signaling progress toward a powerful new way of processing information.
Scientists from Switzerland recently reengineered their data processing, demonstrating that 16 million atoms were entangled in a one-centimeter crystal.
Australian researchers have designed a new type of qubit - the building block of quantum computers - that they say will finally make it possible to manufacture a true, large-scale quantum computer.
The results are preliminary, but “confirm the feasibility of a seawater quantum channel, representing the first step towards underwater quantum communication.
An team of German researchers recently conducted an experiment that has once again proven that quantum entanglement is possible.
MIT team has brought the world one step closer to quantum computing by creating qubits that are able to retain the information they store hundreds of times longer than anyone has previously achieved.
Atos introduces the world's first commercially available machine-system capable of simulating up to 40 quantum bits (Qubits).
The team demonstrates that photons can become an accessible and powerful quantum resource when generated in the form of color-entangled quDits.
Artificial intelligence, molecular modelling, cryptography, financial modelling, weather forecasting and particle physics are main problems to be solved by quantum computers.
IBM just announced the two most powerful quantum processors it has ever built, but it still needs help figuring out what to do with them.
Chinese scientists have built the world's first quantum computing machine that goes far beyond the early classical or conventional computers
In a big step forward, physicists achieved the first-ever demonstration of storing and retrieving quantum data from the nucleus of a solitary atom embedded in silicon.
Now physicists from the UK have created a blueprint for a soccer-field-sized machine they say could reach the blistering speeds that would allow them to solve problems beyond the reach of today’s most powerful supercomputers.
Advanced photonic nanostructures are well on their way to revolutionizing quantum technology for quantum networks based on light. Researchers have now developed the first building blocks needed to construct complex quantum photonic circuits for quantum networks.
Quantum computing has long seemed like one of those technologies that are 20 years away, and always will be. But 2017 could be the year that the field sheds its research-only image.
