These equations are instrumental in describing systems where both quantum effects and the principles of special relativity are significant.

With contributions by Dr. G. N. R. Tripathi NOTRE DAME, IN / ACCESS Newswire / August 23, 2025 / For the first time, ...

Quantum computers take advantage of quantum phenomena to perform certain calculations more efficiently than their classical counterparts. Thanks to these abilities, they can already topple complex ...

Researchers developed an AI model that reduced a 100,000-equation quantum problem into just four equations.

A new algorithm may give quantum computers a new, practical job: quickly solving monster linear equations. Such problems are at the heart of complex processes such as image and video processing ...

Although Navier–Stokes equations are the foundation of modern hydrodynamics, adapting them to quantum systems has so far been a major challenge. Researchers from the Faculty of Physics at the ...

In recent years, quantum computers have lost some of their luster. It once seemed that they might be able to solve hard problems exponentially faster than classical computers, but so far, that’s ...

Solving equations with light. (Courtesy: iStockphoto/Henrik Jonsson) 3 x + y = 2 x + 3 y = 0 It’s the sort of easy maths problem that you can work out in a few minutes using pencil and paper, but ...

Previously it was impossible to pinpoint specific quantum chaos states because any number entered in a calculation could lead to dramatic changes and fluctuations, but this new equation bypasses ...

Dirac equation: A relativistic wave equation that describes spin-½ particles and integrates the principles of quantum mechanics with special relativity.