Quantum spin model made from nanographene molecules. ScienceDaily . Retrieved March 29, 2025 from www.sciencedaily.com / releases / 2025 / 03 / 250314113814.htm ...

The basic hydrogen atom is the simplest of all ... Nowadays, we know that the spin quantum number cannot be interpreted visually: if you try to model an electron as a charged body spinning on ...

At ultracold temperatures, interatomic collisions are relatively simple, and their outcome can be controlled using a magnetic field. However, research by scientists led by Prof. Michal Tomza from the ...

Quantum electrodynamics (QED) is a cornerstone of the standard model of particle physics. A decade-long effort to simulate QED on a two-dimensional lattice has now succeeded — through the use of ...

So, when an atom in ... implies that quantum systems could maintain entanglement over long periods, without needing constant ...

Now, engineers at the University of California San Diego have discovered that quantum materials just a single atom thick can do the job—using only light. A new study, published in Nature ...

Now, engineers have discovered that quantum materials just a single atom thick can do the job with high speed and resolution -- using only light. For decades, scientists have relied on electrodes ...

Quantum annealing processors outperform classical supercomputers in solving real-world scientific simulations of quantum spin dynamics, researchers report in a new study, achieving results far beyond ...

The New Zealander had discovered the atomic nucleus in 1911 and further investigations by Bohr led to his quantum model of the atom where electrons travel around the nucleus in certain orbits. When ...

Did these researchers truly just crack our fundamental concepts of (quantum) physics wide open ... in the photonic energy getting absorbed by an atom, boosting the energy state of its electron ...