A team at the University at Buffalo has made it possible to simulate complex quantum systems without needing a supercomputer.

TWA is one such semiclassical approach that dates back to the 1970s, but is limited to isolated, idealized quantum systems ...

Alright, let’s talk about quantum computing—don’t worry, you don’t need a physics degree or a lab coat for this one. Quantum computers are like the supercharged, cooler cousins of the computers we use ...

That enables the calculation of both wave-ness and particle-ness with far more precision. By measuring the coherence in a system, in fact, it becomes possible to calculate a quantum object's level of ...

The simulation of strongly interacting many-body systems is a key objective of quantum physics research, as it can help to ...

A team of international physicists has brought Bayes’ centuries-old probability rule into the quantum world. By applying the ...

Study offers user-friendly template for simulating quantum systems on consumer laptops, saving supercomputers for more ...

In the 1980s, John Clarke, Michel Devoret and John Martinis demonstrated quantum effects in an electric circuit, an advance that underlies today’s quantum computers.

"You're basically creating molecular circuits in the machine's memory versus connecting together a bunch of steps in a piece of software," said Bill Vass.

It is the 119th time the prize has been awarded. Last year, artificial intelligence pioneers John Hopfield and Geoffrey ...