How come our universe is full of disorder, when all elementary particles appear to follow strictly ordered laws of physics? And are there organizing principles behind disorder and apparent chaos?

A new mathematical proof links reentrance and temperature chaos in spin glasses, deepening insight into disordered systems and aiding quantum and AI research. (Nanowerk News) A fundamental link ...

Head spin: does the brain behave like a spin glass? (Courtesy: Shutterstock / Phonlamai Photo) Spin-glass-like states that occur in models of neural networks can provide important insights into states ...

Quantum computing gets hardware boost with D-Wave’s spin glass breakthrough Your email has been sent Enterprises can take advantage of D-Wave’s newly published optimization improvement through a ...

Spin glasses represent disordered magnetic systems characterised by randomly distributed interactions and frustration. Statistical mechanics provides a unified framework to describe equilibrium and ...

Evidence shows computational advantage, with quantum dynamics speedup over classical in 3D spin glasses, an intractable class of optimization problems BURNABY, British Columbia & PALO ALTO, ...

Spin glasses might turn out to be the most useful useless things ever discovered. These materials — which are typically made of metal, not glass — exhibit puzzling behaviors that captivated a small ...

How state-of-art quantum simulations with trapped ions can be used to tackle complex computational problems. One of the most striking discoveries of quantum information theory is the existence of ...

A fundamental link between two counterintuitive phenomena in spin glasses— reentrance and temperature chaos—has been mathematically proven for the first time. By extending the Edwards–Anderson model ...