Using a powerful machine made up of 56 trapped-ion quantum bits, or qubits, researchers have achieved something once thought impossible. They have proven, for the first time, that a quantum computer ...

One often-repeated example illustrates the mind-boggling potential of quantum computing: A machine with 300 quantum bits could simultaneously store more information than the number of particles in the ...

MIT physicists have shown that it should be possible to create an exotic form of matter that could be manipulated to form the qubit (quantum bit) building blocks of future quantum computers that are ...

Researchers at the Duke Quantum Center received a $1 million grant to plan a 256-qubit quantum computer, kicking off an effort to build the most powerful computer ever of its kind. The production of ...

The idea behind quantum computing has existed for a long while now, with the primary goal being to basically create supercomputers capable of calculating intensive problems almost instantly. While we ...

In an interesting development, the team at the University of Chicago Pritzker School of Molecular Engineering (UChicago PME) has created a protein-based quantum bit (qubit). The group successfully ...

A study has found a rare form of one-dimensional quantum magnetism in a metallic compound, offering evidence into a phase space that has remained, until now, largely theoretical. The study comes at a ...

For computer scientists, solving problems is a bit like mountaineering. First they must choose a problem to solve — akin to identifying a peak to climb — and then they must develop a strategy to solve ...

Breakthrough LPUs designed to compute at quantum-class speed using natural light instead of electrical signals to achieve quantum computer speeds Set to outpace GPUs and QPUs (quantum processing units ...

New York, Dec. 09, 2025 (GLOBE NEWSWIRE) -- Q/C Technologies, Inc. (Nasdaq: QCLS) (“Q/C” or “the Company”), a pioneer of quantum-class computing at the speed of light, today announced that Martin ...

A new research paper by Google Quantum AI researcher Craig Gidney shows that breaking widely used RSA encryption may require 20 times fewer quantum resources than previously believed. The finding did ...