QuantWare claims the quantum industry has reached a turning point. The company unveiled a new generation of its Quantum ...

Quantum computers will be able to assume highly complex tasks in the future. With superconducting quantum processors, however ...

Understanding quantum computing, from qubits science and tech breakthroughs to future quantum applications, and discovering how close we are to real-world use cases ...

Quantum technologies from ultrasensitive sensors to next-generation information processors depend on the ability of quantum ...

Qolab develops high-performance superconducting qubit systems engineered for scalability, manufacturability, and stability. Founded by Nobel laureate John M. Martinis, Qolab combines deep physics ...

Nature offers a clue. Across every scale, stability comes not from chance but from structure. Cells rely on four molecular plans: polysaccharides, lipids, proteins and nucleic acids. Atoms arrange ...

Princeton researchers have created a superconducting qubit that stays stable more than three times longer than previous designs, marking a major leap toward practical quantum computers.

Working with OptQC, the Japanese company wants to make a game-changing optical quantum computer that operates at room ...

A sub-class of Si spin qubits uses metal-oxide-semiconductor (MOS) quantum dots to confine the electrons, a structure that ...

You may have heard of diamond qubits, but diamonds aren't the only gemstones that can be used to store quantum information. A new study reveals that spinel, a vibrant and rare gem, can also be used as ...

The JUPITER supercomputer set a new milestone by simulating 50 qubits. New memory and compression innovations made this breakthrough possible. A team from the Jülich Supercomputing Centre, working ...